/[PAMELA software]/ParDirCalc/QtoInclination.C
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Contents of /ParDirCalc/QtoInclination.C

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Revision 1.3 - (show annotations) (download)
Tue Sep 16 09:38:49 2008 UTC (16 years, 2 months ago) by pam-mep
Branch: MAIN
CVS Tags: HEAD
Changes since 1.2: +1622 -562 lines
File MIME type: text/plain 
Lot of changes
1 // sample to plot ND data
2 // 04/26/2007
3 //
4 //
5 // C/C++ headers
6 //
7 #include "TrAng.h"
8 #include "QtoInc.h"
9 #include "option.h"
10
11 #include <fstream>
12 #include <iostream>
13 #include <stdio.h>
14 //
15 // ROOT headers
16 //
17 #include <TTree.h>
18 #include <TObject.h>
19 #include <TList.h>
20 #include <TArrayI.h>
21 #include <TSystem.h>
22 #include <TSystemDirectory.h>
23 #include <TString.h>
24 #include <TFile.h>
25 #include <TCanvas.h>
26 //#include <TMatrixD.h>
27 #include "TStyle.h"
28 //#include <TH2F.h>
29 #include <TGraphErrors.h>
30 #include <TMultiGraph.h>
31
32 #include <PamLevel2.h>
33 #include <TStyle.h>
34
35 using namespace std;
36
37 TH2F* NormalizeTH2F(TH2F* h1,Int_t Nev){
38 TH2F* h2 = new TH2F("h2","Zenit, deg; Azimut, deg",36,0,360,20,140,180);
39 //h2-SetName("h2");
40 //h2.SetBins(36,0,360,20,140,180);
41 for(Int_t i=0;i<=36;i++) for(Int_t j=0;j<=20;j++)h2->Fill(i*10-5,j*2+139,h1->GetBinContent(i,j)/Nev);
42 return h2;
43 }
44
45 void DivideHystTH2F(TString file1, TString file2, TString hyst1, TString hyst2, Int_t Nev1, Int_t Nev2, string outdir,Bool_t Err){
46 gStyle->SetPalette(1);
47 TFile* f1 = new TFile(file1);
48 TFile* f2 = new TFile(file2);
49 TH2F* h1 = (TH2F*)f1->Get(hyst1);
50 TH2F* h2 = (TH2F*)f2->Get(hyst2);
51 TH2F* h1n = NormalizeTH2F(h1,1);
52 TH2F* h2n = NormalizeTH2F(h2,1);
53 /*TH2F* h1n = new TH2F("h1n","Zenit, deg; Azimut, deg",36,0,360,20,140,180);
54 TH2F* h2n = new TH2F("h2n","Zenit, deg; Azimut, deg",36,0,360,20,140,180);
55 for(Int_t i=0;i<=36;i++) for(Int_t j=0;j<=20;j++){
56 h1n->Fill(i*10-5,j*2+140,h1->GetBinContent(i,j)/h1->GetEntries());
57 h2n->Fill(i*10-5,j*2+140,h2->GetBinContent(i,j)/h2->GetEntries());
58 }*/
59 //vector<TGraphErrors> GrafErr(8);
60 TH2F* h3 = new TH2F("h3","Zenit angle, deg; Azimut angle, deg",36,0,360,20,140,180);
61 h3->Divide(h1n,h2n);
62 TH2F* h3ErrPer;
63 if(Err){
64 TH2F* h3Err = new TH2F("h3Err","Errot of Zenit angle, deg; Azimut angle, deg",36,0,360,20,140,180);
65 h3ErrPer = new TH2F("h3Err","Errot of Zenit angle, deg; Azimut angle, deg",36,0,360,20,140,180);
66 //ofstream fe((TString)outdir+"Divide_errors"+hyst1+"_"+hyst2+".txt");
67 ofstream fe2((TString)outdir+"Protons_Divide_errors"+hyst1+"_"+hyst2+".txt");
68 //Int_t Nev1 = 0;
69 //Int_t Nev2 = 0;
70 //for(Int_t i=1;i<=36;i++) for(Int_t j=0;j<=20;j++){Nev1=Nev1+h1->GetBinContent(i,j);Nev2=Nev2+h2->GetBinContent(i,j);}
71 //cout<<"Nev1 = "<<Nev1<<" Nev2 = "<<Nev2<<endl;
72
73 for(Int_t j=20;j>=1;j--){
74 for(Int_t i=1;i<=36;i++){
75 //fe<<i<<"\t"<<j<<"\t"<<h1->GetBinContent(i,j)<<"/"<<h2->GetBinContent(i,j)<<" = ";
76 if(h2->GetBinContent(i,j)!=0){
77 Float_t Val = (h1->GetBinContent(i,j))/(h2->GetBinContent(i,j));
78 Float_t Err = 0;
79 if(h1->GetBinContent(i,j)==0)Err=0;else Err = Val*(sqrt(1./h1->GetBinContent(i,j)+1./h2->GetBinContent(i,j)));
80 //Float_t Err = (h2->GetBinContent(i,j)*sqrt(h1->GetBinContent(i,j))-h1->GetBinContent(i,j)*sqrt(h2->GetBinContent(i,j)))/pow(h2->GetBinContent(i,j),2);
81 //Float_t Err = (h1->GetBinContent(i,j)/pow(h2->GetBinContent(i,j),2))+pow(h1->GetBinContent(i,j),2)*h2->GetBinContent(i,j)/pow(h2->GetBinContent(i,j),4);
82 Float_t ErrPer = Err*100/(fabs(Val-1));
83 fe2<<(-j+20)*2+1<<"\t"<<i*10-5<<"\t"<<h1->GetBinContent(i,j)<<"\t"<<h2->GetBinContent(i,j)<<endl;
84 //fe<<Val<<" +/- "<<Err<<"\t";
85 if(ErrPer>100)ErrPer=100;
86 h3ErrPer->Fill(i*10-5,j*2+139,ErrPer);
87 h3Err->Fill(i*10-5,j*2+139,Err);
88 }
89 }
90 //fe<<"\n";
91 }
92
93 //h1ErrCanv->Divide(1,8);
94 for(Int_t i=0;i<8;i++){
95 Float_t x[36];
96 Float_t y[36];
97 Float_t y1[36];
98 Float_t Ex[36];
99 Float_t Ey[36];
100 TH1F* Profil1D = new TH1F("Profil1D","Profil1D",36,0,36);
101 Profil1D->SetFillColor(2);
102 for(Int_t j=0;j<36;j++){
103 y[j] = h3->GetBinContent(j,19-i);
104 Ey[j] = h3Err->GetBinContent(j,19-i);
105 x[j] = j;
106 Ex[j] = 0;
107 y1[j] = 1;
108 Profil1D->Fill(j,h2->GetBinContent(j,19-i));
109 }
110 TCanvas* h1ErrCanv = new TCanvas("h1ErrCanv","",1200,800);
111 h1ErrCanv->Divide(1,2);
112 TGraphErrors* Gep = new TGraphErrors(36,x,y,Ex,Ey);
113 TGraph* _1 = new TGraph(36,x,y1);
114 Gep->SetLineColor(4);
115 Gep->SetFillColor(2);
116 h1ErrCanv->cd(1);
117 Gep->Draw("AB");
118 _1->Draw("");
119 h1ErrCanv->cd(2);
120 Profil1D->Draw("");
121 /*string s;
122 stringstream out;
123 out<<i;
124 s=out.str();
125 h1ErrCanv->SaveAs((TString)outdir+"Divide_"+hyst1+"_"+hyst2+"_1Ds"+s+".png");*/
126 Gep->Delete();
127 delete h1ErrCanv;
128 }
129 /*fe2.close();
130 TFile f3((TString)outdir+"DivideHyst"+hyst1+"_"+hyst2+".root","recreate");
131 h3->Write();
132 f3.Close();*/
133 }
134 /*TCanvas* c1 = new TCanvas("c1",hyst1+"/"+hyst2,1200,1200);
135 if(Err) c1->Divide(1,2);
136 c1->cd(1);
137 h3->Draw("colz");
138 if(Err){
139 c1->cd(2);
140 h3ErrPer->Draw("colz");
141 }
142 c1->SaveAs((TString)outdir+"Divide_"+hyst1+"_"+hyst2+".png");
143 delete c1;*/
144 h2->Delete();
145 h1->Delete();
146 h3->Delete();
147 f1->Delete();
148 f2->Delete();
149 }
150
151 void DiferenceHystTH2F(TString file1, TString file2, TString hyst1, TString hyst2, Int_t Nev1, Int_t Nev2, string outdir){
152 gStyle->SetPalette(1);
153 TFile* f1 = new TFile(file1);
154 TFile* f2 = new TFile(file2);
155 TH2F* h1 = (TH2F*)f1->Get(hyst1);
156 TH2F* h2 = (TH2F*)f2->Get(hyst2);
157 TH2F* h1n = NormalizeTH2F(h1,Nev1);
158 TH2F* h2n = NormalizeTH2F(h2,Nev2);
159 TH2F* h3 = new TH2F("h3","Zenit angle, deg; Azimut angle, deg",36,0,360,20,140,180);
160 TH2F* h3Err = new TH2F("h3Err","Zenit angle, deg; Azimut angle, deg",36,0,360,20,140,180);
161 TH2F* h3ErrPer = new TH2F("h3Err","Errot of Zenit angle, deg; Azimut angle, deg",36,0,360,20,140,180);
162 ofstream fe((TString)outdir+"Diference_errors2.txt");
163 for(Int_t i=1;i<=36;i++){
164 for(Int_t j=1;j<=20;j++){
165 Float_t Val = h1->GetBinContent(i,j)/Nev1-h2->GetBinContent(i,j)/Nev2;
166 Float_t Err = sqrt(pow(h1->GetBinContent(i,j)/Nev1,2)*(1./h1->GetBinContent(i,j)+1./Nev1)+pow(h2->GetBinContent(i,j)/Nev2,2)*(1./h2->GetBinContent(i,j)+1./Nev2));
167 Float_t ErrPer = Err*100/(fabs(Val));
168 h3->Fill(i*10-5,j*2+139,h1->GetBinContent(i,j)/Nev1-h2->GetBinContent(i,j)/Nev2);
169 fe<<i<<"\t"<<j<<"\t"<<h1->GetBinContent(i,j)/Nev1<<" - "<<h2->GetBinContent(i,j)/Nev2<<" = "<<Val;
170 if(h1->GetBinContent(i,j)!=0 && h2->GetBinContent(i,j)!=0){
171 fe<<" +/- "<<Err<<" (+/- "<<ErrPer<<" )\n";
172 if(ErrPer>100)ErrPer=100;
173 h3Err->Fill(i*10-5,j*2+139,Err);
174 h3ErrPer->Fill(i*10-5,j*2+139,ErrPer);
175 }else fe<<"\n";
176 }
177 fe<<"\n";
178 }
179 for(Int_t i=0;i<8;i++){
180 Float_t x[36];
181 Float_t y[36];
182 Float_t Ex[36];
183 Float_t Ey[36];
184 TH1F* Profil1D = new TH1F("Profil1D","Profil1D",36,0,36);
185 Profil1D->SetFillColor(2);
186 for(Int_t j=0;j<36;j++){
187 if(h1n->GetBinContent(j,19-i)!=0)y[j] = h3->GetBinContent(j,19-i)*100/h1n->GetBinContent(j,19-i); else y[j]=0;
188 if(h1n->GetBinContent(j,19-i)!=0) Ey[j] = h3Err->GetBinContent(j,19-i)*100/h1n->GetBinContent(j,19-i); else Ey[j]=0;
189 Profil1D->Fill(j,h2->GetBinContent(j,19-i));
190 //cout<<"h3 = "<<h3->GetBinContent(j,19-i)<<" h1n = "<<h1n->GetBinContent(j,19-i)<<" yn = "<<y[j]<<endl;
191 //Ey[j] = h3ErrPer->GetBinContent(j,19-i);
192 //cout<<Ey[j]<<endl;
193 x[j] = j;
194 Ex[j] = 0;
195 }
196 TCanvas* h1ErrCanv = new TCanvas("h1ErrCanv","",1200,800);
197 h1ErrCanv->Divide(1,2);
198 TGraphErrors* Gep = new TGraphErrors(36,x,y,Ex,Ey);
199 Gep->SetLineColor(4);
200 Gep->SetFillColor(2);
201 h1ErrCanv->cd(1);
202 Gep->Draw("AB");
203 h1ErrCanv->cd(2);
204 Profil1D->Draw("");
205 string s;
206 stringstream out;
207 out<<i;
208 s=out.str();
209 h1ErrCanv->SaveAs((TString)outdir+"Diference_"+hyst1+"_"+hyst2+"_1Ds"+s+".png");
210 Gep->Delete();
211 Profil1D->Delete();
212 delete h1ErrCanv;
213 }
214 fe.close();
215 TFile f3((TString)outdir+"resultDifferenceHyst.root","recreate");
216 h3->Write();
217 f3.Close();
218 TCanvas* c1 = new TCanvas("c1",hyst1+" - "+hyst2,1200,1200);
219 c1->Divide(1,2);
220 c1->cd(1);
221 h3->Draw("colz");
222 c1->cd(2);
223 h3ErrPer->Draw("colz");
224 c1->SaveAs((TString)outdir+"Difference_"+hyst1+"_"+hyst2+".png");
225 delete c1;
226 h2->Delete();
227 h1->Delete();
228 h3->Delete();
229 f1->Delete();
230 f2->Delete();
231 }
232
233 void MergeHystTH2F(TString file1, TString file2, TString hyst1, TString hyst2, string outdir){
234 gStyle->SetPalette(1);
235 TFile* f1 = new TFile(file1);
236 TFile* f2 = new TFile(file2);
237 TH2F* h1 = (TH2F*)f1->Get(hyst1);
238 TH2F* h2 = (TH2F*)f2->Get(hyst2);
239 TH2F* h3 = new TH2F("h3","Zenit angle, deg; Azimut angle, deg",36,0,360,20,140,180);
240 for(Int_t i=0;i<=36;i++) for(Int_t j=0;j<=20;j++) h3->Fill(i*10-5,j*2+140,h1->GetBinContent(i,j)+h2->GetBinContent(i,j));
241 TFile f3((TString)outdir+hyst1+"_"+hyst2+"_resultMergeHyst.root","recreate");
242 h3->Write();
243 f3.Close();
244 TCanvas* c1 = new TCanvas("c1",hyst1+" + "+hyst2,1200,800);
245 c1->cd();
246 h3->Draw("colz");
247 c1->SaveAs((TString)outdir+"Merge_"+hyst1+"_"+hyst2+".png");
248 delete c1;
249 h2->Delete();
250 h1->Delete();
251 h3->Delete();
252 f1->Delete();
253 f2->Delete();
254 }
255
256
257 void Convert2Dto1Dhyst(TString file, TString hyst, string outdir){
258 TFile* f1 = new TFile(file);
259 TH2F* h1 = (TH2F*)f1->Get(hyst);
260 //TH1F* h2 = new TH1F("h2","Zenit Efficiency",20,140,180);
261 //TH1F* h3 = new TH1F("h3","Azimuth Efficiency",36,0,360);
262 //for(Int_t i=0;i<36;i++) for(Int_t j=0;j<20;j++) h3->Fill(i*10-5,h1->GetBinContent(i,j));
263 //for(Int_t i=0;i<20;i++) for(Int_t j=0;j<36;j++) h2->Fill(j*2+140,h1->GetBinContent(j,i));
264 TH1D* h2 = (TH1D*)h1->ProjectionY(" ",1,20,"");
265 TCanvas* c1 = new TCanvas("c1","Zenit Efficiency",1200,800);
266 c1->cd();
267 h2->Draw();
268 c1->SaveAs((TString)outdir+hyst+"Zenit.png");
269 delete c1;
270 TFile f2((TString)outdir+hyst+"Zenit.root","recreate");
271 h2->Write();
272 f2.Close();
273 TH1D* h3 = (TH1D*)h1->ProjectionX(" ",1,36,"");
274 TCanvas* c2 = new TCanvas("c2","Azimuth Efficiency",1200,800);
275 c2->cd();
276 h3->Draw();
277 c2->SaveAs((TString)outdir+hyst+"Azimuth.png");
278 delete c2;
279 TFile f3((TString)outdir+hyst+"Azimuth.root","recreate");
280 h3->Write();
281 f3.Close();
282 h3->Delete();
283 h1->Delete();
284 h2->Delete();
285 f1->Delete();
286 }
287
288 void ReBinTH2F(TString file, TString hyst, string outdir){
289 gStyle->SetPalette(1);
290 TFile* f1 = new TFile(file);
291 TH2F* h1 = (TH2F*)f1->Get(hyst);
292 TH2F* h2 = new TH2F("h2","Zenith, deg; Azimuth, deg",18,0,360,20,140,180);
293 for(Int_t i=0;i<=20;i++) for(Int_t j=0;j<=36;j++){h2->Fill(j*10-5,i*2+140,h1->GetBinContent(j,i)+h1->GetBinContent(j+1,i));j++;}
294 TFile f2((TString)outdir+hyst+"Re-Bin.root","recreate");
295 h2->Write();
296 f2.Close();
297 TCanvas* c1 = new TCanvas("c1",hyst,800,600);
298 c1->cd();
299 h2->Draw("colz");
300 c1->SaveAs((TString)outdir+hyst+"Re-Bin.png");
301 delete c1;
302 h2->Delete();
303 h1->Delete();
304 f1->Delete();
305 }
306
307 void Modeling(Double_t R, Int_t Nevents, Float_t zmax, string outdir){
308 cout<<"Modelling..."<<endl;
309 gStyle->SetPalette(1);
310 TH2F* h1 = new TH2F("h1","Azimut,deg;Zenit,deg",36,0,360,20,140,180);
311 TH2F* h2 = new TH2F("h2","Azimut,deg;Zenit,deg",36,0,360,20,140,180);
312 TH2F* h3 = new TH2F("h3","Azimut,deg;Zenit,deg",36,0,360,20,140,180);
313 TH2F* h4 = new TH2F("h4","Azimut,deg;Zenit,deg",36,0,360,20,140,180);
314 Float_t A;
315 Float_t Zenit;
316 Float_t Azimuth;
317 for(Int_t i=0;i<Nevents;i++){
318 A=rand() % 1000; A=A/1000;
319 Zenit=TMath::RadToDeg()*acos(pow(A,0.5));
320 //Zenit=3;
321 Azimuth=rand() % 360000;
322 Azimuth=Azimuth/1000;
323 h4->Fill(Azimuth,180-Zenit);
324 /*for(Int_t nx=0;nx<24;nx++){
325 for(Int_t ny=0;ny<24;ny++){
326 h2->Fill(Azimuth,180-Zenit);
327 Float_t x = (nx+0.5)*6.75;
328 Float_t y = (ny+0.5)*5.5;
329 Float_t k = sin(TMath::DegToRad()*Zenit)*cos(TMath::DegToRad()*Azimuth);
330 Float_t l = sin(TMath::DegToRad()*Zenit)*sin(TMath::DegToRad()*Azimuth);
331 Float_t m = cos(TMath::DegToRad()*Zenit);
332 Float_t xl = x+k*zmax/m;
333 Float_t yl = y+l*zmax/m;
334 Float_t hl = sqrt(pow(x-xl,2)+zmax);
335 Float_t za=0; Float_t xa=0;
336 Float_t Rk=1000*0.3*R/0.4;
337 //cout<<"Zenith = "<<Zenit<<" Azimuth = "<<Azimuth<<endl;
338 //cout<<"x = "<<x<<" y = "<<y<<" Rk = "<<Rk<<" xl = "<<xl<<" yl = "<<yl<<endl;
339 if(x-xl==0){
340 za==0;
341 xa==x-Rk;
342 }else{
343 //Float_t ko = 0;
344 //Float_t koo = 0;
345 if(x-xl<0) {za = zmax-Rk*cos(atan(zmax/fabs(x-xl)));}
346 if(x-xl>0) {za = zmax+Rk*cos(atan(zmax/fabs(x-xl)));}
347 xa = x-Rk*sin(atan(zmax/fabs(x-xl)));
348 }
349 //cout<<"xa = "<<xa<<" za = "<<za<<" atan = "<<TMath::RadToDeg()*atan(445.1/fabs(x-xl))<<endl;
350 Float_t xll;
351 if(Rk>za && ((za>0 && xa+Rk<=162 && xa+Rk>=0) || za<=0 )) xll = xa+sqrt(pow(Rk,2)-pow(za,2)); else xll = 10000;
352 if(xll<=162 && xll>=0 && yl<=132 && yl>=0) h1->Fill(Azimuth,180-Zenit);
353 //cout<<"xll = "<<xll<<endl;
354 //if(xl<=162 && xl>=0 && yl<=132 && yl>=0)cin>>za;
355 }
356 }*/
357 }/*
358 TCanvas* c1 = new TCanvas("c1","Model distribution",1200,800);
359 h1->Draw("colz");
360 c1->SaveAs((TString)outdir+".png");
361 TFile f2((TString)outdir+".root","recreate");
362 h1->Write();
363 f2.Close();
364 */
365 TCanvas* c3 = new TCanvas("c3","Model Isotropic distribution",1200,800);
366 h4->Draw("colz");
367 c3->SaveAs((TString)outdir+"_isotrop.png");
368 TFile f4((TString)outdir+"_isotrop.root","recreate");
369 h4->Write();
370 f4.Close();
371 /*
372 TFile f3((TString)outdir+"Abs.root","recreate");
373 h2->Write();
374 f3.Close();
375 h3->Divide(h2,h1);
376 TCanvas* c2 = new TCanvas("c2","Model distribution",1200,800);
377 h3->Draw("colz");
378 c2->SaveAs((TString)outdir+"Rate.png");
379 delete c1;
380 delete c2;*/
381 delete c3;
382 h1->Delete();
383 h2->Delete();
384 h3->Delete();
385 h4->Delete();
386 }
387
388 int main(int argc, char* argv[]){
389
390 OptionParam opt1;
391
392 string outdir = "/home/pamelaprod/malakhov/QtoInc/Picture/";
393 Bool_t AnglHist = false;
394 Bool_t DiffHist = false;
395 Bool_t PamEff = false;
396 Bool_t DoTr = false;
397 Bool_t PamAngTime = false;
398 Bool_t PamExp = false;
399
400 /*vector<TH1F> Hyst(1);
401 Hyst[0].SetName("ElectronLowEnergy");
402 Hyst[0].SetBins(36,0,360);
403 Hyst[0].FillRandom("gaus",5000);
404 TFile f1("/home/pamelaprod/malakhov/QtoInc/TEST/TEST.root","recreate");
405 Hyst[0].Write();
406 f1.Close();
407 //TFile* f1 = new TFile("/home/pamelaprod/malakhov/QtoInc/TEST/TEST.root");
408 //TH1F* h1 = (TH1F*)f1->Get("");
409 //cout<<h1->GetEntries()<<endl;
410 */
411
412 if(argc<2){
413 cout<<"You have to insert at least a file to analisys \nUsing --help for more information\n";
414 exit(1);
415 }
416 //opt1.opt.PE.Proton.Hyst1.resize(opt1.opt.PE.Proton.Hyst1.size()+1);
417 //opt1.opt.PE.Proton.Hyst1[0].SetBins(36,0,360);
418 //opt1.opt.PE.Proton.Hyst1[0].SetName("Test2");
419 //cout<<opt1.opt.PE.Proton.Hyst1.size()<<endl;
420 //cout<<opt1.opt.PE.Proton.Hyst1[0].GetName()<<endl;
421
422 //vector<TH2F>Hyst2DF(1);
423 //Hyst2DF[0].SetName("Test1");
424 //Hyst2DF[0].SetBins(36,0,360,36,0,360);
425 //Hyst2DF.resize(Hyst2DF.size()+1);
426 //Hyst2DF[1].SetName("Test2");
427 //Hyst2DF[1].SetBins(36,0,360,36,0,360);
428 //cout<<Hyst2DF[0].GetName()<<endl;
429
430 if(!strcmp(argv[1],"--help")){
431 opt1.helprint();
432 /* cout<<"\nUsage \n";
433 cout<<"\n QtoInc --WorkDir directory_with_level2_files --OutPuth directory_for_output files [Options] \n";
434 cout<<"\n --WorkDir full puth to the Level2 file \n";
435 cout<<" --OutPuth full puth for putputh files \n";
436 cout<<"\n options are:\n";
437 cout<<"--help print this help and exit \n";
438 cout<<"-DoTr Use DoTrack2 procedure for calculating direction of particle flight into Pamela \n";
439 cout<<"-PamEff Calculating Pamela's angular efficiency \n";
440 cout<<"-DiffHist Getting hystogramm for diference between direction getting using DoTrack2 and using axv & ayv values \n";
441 cout<<"-AngHist Getting hystogramm for various angles(Pitch Angle, Pamela's Main axis angles, etc) [default] \n";
442 cout<<"-PamAngTime Not Useful now \n";
443 cout<<"-PamExp Calculating exposition for each possible direction in Pamela's aperture \n";
444 cout<<"\nFor Example: \n";
445 cout<<"\n./QtoInc.exe --WorkDir /data01/_3/704_3/ --OutPuth /home/pamelaprod/malakhov/QtoInc/Picture5/ -DiffHist -DoTr \n\n";
446 */ exit(1);
447 }
448
449 /*if(!strcmp(argv[1],"--Normalize")){
450 if(4 >= argc){
451 cout<<"--Normalize needs argument\n See --help\n";
452 exit(1);
453 }
454 NormalizeTH2F((TString)argv[2],(TString)argv[3],argv[4]);
455 exit(0);
456 }*/
457
458 if(!strcmp(argv[1],"--Model")){
459 if(5 >= argc){
460 cout<<"--Model needs argument\n See --help\n";
461 exit(1);
462 }
463 Modeling(atof(argv[2]),atoi(argv[3]),atof(argv[4]),argv[5]);
464 exit(0);
465 }
466
467 if(!strcmp(argv[1],"--Diference")){
468 if(6 >= argc){
469 cout<<"--Diference needs argument\n See --help\n";
470 exit(1);
471 }
472
473 DiferenceHystTH2F((TString)argv[2],(TString)argv[3],(TString)argv[4],(TString)argv[5],atoi(argv[6]),atoi(argv[7]),argv[8]);
474 exit(0);
475 }
476
477 if(!strcmp(argv[1],"--Compare")){
478 //gStyle->SetPalette(1);
479 //TMultiGraph* mg;
480 //vector<TGraphErrors*> Gep;
481 Float_t Val[20][36];
482 Float_t Err[20][36];
483 string tmp;
484 char g;
485 TString out = "";
486 for(Int_t ii=2;ii<argc;ii++){
487 if(!strcmp(argv[ii],"-out")){
488 out = (TString)argv[ii+1];
489 ii++;
490 }else{
491 if(!strcmp(argv[ii],"-in"));
492 ifstream in(argv[ii+1],ios::in);
493 for(Int_t i=20;i>0;i--){
494 for(Int_t j=1;j<=36;j++){
495 in>>tmp;in>>tmp;in>>g;
496 if(g=='0'){
497 Val[i-1][j-1]=0;
498 Err[i-1][j-1]=0;
499 Bool_t xx=false;
500 Bool_t yy=false;
501 while(g!='='){
502 in>>g;
503 if(g=='/'){yy=true;continue;}
504 if(yy && g=='0') xx=true; else yy=false;
505 }
506 if(!xx){
507 in>>tmp;
508 in>>tmp;
509 in>>tmp;
510 }
511 }else{
512 while(g!='/') in>>g;
513 in>>g;
514 if(g=='0'){
515 in>>tmp;
516 Val[i-1][j-1]=0;
517 Err[i-1][j-1]=0;
518 }else{
519 while(g!='=') in>>g;
520 in>>Val[i-1][j-1];
521 in>>tmp;
522 in>>Err[i-1][j-1];
523 }
524 }
525 }}
526 ii++;
527 //Val.resize(Val.size()+1);
528 //Val[Val.size()-1][1][1]=0;
529 }
530 }
531 ofstream fv(out+"Val.txt");
532 ofstream fe(out+"Err.txt");
533 for(Int_t i=20;i>0;i--){
534 for(Int_t j=1;j<=36;j++){fv<<Val[i-1][j-1]<<"\t";fe<<Err[i-1][j-1]<<"\t";}
535 fv<<endl;fe<<endl;
536 }
537 fv.close();
538 fe.close();
539 }
540
541 if(!strcmp(argv[1],"--Merge")){
542 if(6 >= argc){
543 cout<<"--Merge needs argument\n See --help\n";
544 exit(1);
545 }
546 gStyle->SetPalette(1);
547 //vector<TString> Hysts;
548 //vector<TString> Files;
549 vector<TH1F*> h1;
550 vector<TH2F*> h2;
551 TH2F h2sum;
552 TH1F h1sum;
553 Bool_t H2 = false;
554 TString out = "";
555 if(!strcmp(argv[2],"2D")) H2=true;
556 for(Int_t i=3;i<argc;i++){
557 if(!strcmp(argv[i],"-out")){
558 out = (TString)argv[i+1];
559 i++;
560 //break;
561 }else{
562 if(H2){
563 h2.resize(h2.size()+1);
564 cout<<"h2 resize... New size is "<<h2.size()<<endl;
565 TFile* f2 = new TFile((TString)argv[i]);
566 //cout<<"file is reading"<<endl;
567 //f2->ls();
568 h2[h2.size()-1] = (TH2F*)f2->Get(argv[i+1]);
569 //cout<<argv[i+1]<<endl;
570 //cout<<h3->GetNbinsX()<<endl;
571 //delete h3;
572 //delete f1;
573 i++;
574 }else{
575 h1.resize(h1.size()+1);
576 TFile* f1 = new TFile((TString)argv[i]);
577 h1[h1.size()-1] = (TH1F*)f1->Get(argv[i+1]);
578 i++;
579 }
580 }
581 }
582 cout<<"outputh is "<<out<<endl;
583 //cout<<"NBinsX = "<<h2[0]->GetNbinsX()<<" Xmin = "<<h2[0]->GetXaxis()->GetXmin()<<" Xmax = "<<h2[0]->GetXaxis()->GetXmax()<<" NbinsY = "<<h2[0]->GetNbinsY()<<" Ymin = "<<h2[0]->GetYaxis()->GetXmin()<<" Ymax = "<<h2[0]->GetXaxis()->GetXmax()<<endl;
584 if(H2)h2sum.SetBins(h2[0]->GetNbinsX(),h2[0]->GetXaxis()->GetXmin(),h2[0]->GetXaxis()->GetXmax(),h2[0]->GetNbinsY(),h2[0]->GetYaxis()->GetXmin(),h2[0]->GetYaxis()->GetXmax()); else
585 h1sum.SetBins(h1[0]->GetNbinsX(),h1[0]->GetXaxis()->GetXmin(),h1[0]->GetXaxis()->GetXmax());
586 h1sum.SetName("Proton");
587 h2sum.SetName("Proton");
588 if(H2)for(Int_t i=0;i<h2.size();i++) h2sum=h2sum+(*h2[i]); else for(Int_t i=0;i<h1.size();i++) h1sum=h1sum+(*h1[i]);
589 if(H2){
590 TFile fsum(out+".root","recreate");
591 h2sum.Write();
592 fsum.Close();
593 TCanvas* c1 = new TCanvas("c1","resultMerge",1200,800);
594 c1->cd();
595 h2sum.Draw("colz");
596 c1->SaveAs(out+".png");
597 delete c1;
598 }else{
599 TFile fsum(out+".root","recreate");
600 h1sum.Write();
601 fsum.Close();
602 TCanvas* c1 = new TCanvas("c1","resultMerge",1200,800);
603 c1->cd();
604 h1sum.Draw();
605 c1->SaveAs(out+".png");
606 delete c1;
607 }
608 //MergeHystTH2F((TString)argv[2],(TString)argv[3],(TString)argv[4],(TString)argv[5],argv[6]);
609 exit(0);
610 }
611
612 if(!strcmp(argv[1],"--PlotEfficiency")){
613 vector<TGraphErrors> ge;
614 TString out = "";
615 Int_t t = 1;
616 //TGraphErrors tmp;
617 for(Int_t i=2;i<argc;i++){
618 if(!strcmp(argv[i],"-out")){
619 out = (TString)argv[i+1];
620 i++;
621 }
622 if(!strcmp(argv[i],"-in")){
623 ifstream inVal((TString)argv[i+1]+"Val.txt",ios::in);
624 ifstream inErr((TString)argv[i+1]+"Err.txt",ios::in);
625 Float_t Val[20][36];
626 Float_t Err[20][36];
627 for(Int_t j=0;j<20;j++)for(Int_t k=0;k<36;k++){inVal>>Val[j][k];inErr>>Err[j][k];}
628 if(!strcmp(argv[i+2],"-yline")){
629 Int_t n = atoi(argv[i+3]);
630 Float_t x[36];
631 Float_t y[36];
632 Float_t xe[36];
633 Float_t ye[36];
634 ge.resize(ge.size()+1);
635 //ge[ge.size()-1]->Set(36);
636 for(Int_t j=0;j<36;j++){
637 x[j]=j*10+5;
638 xe[j]=5;
639 y[j]=Val[n][j];
640 ye[j]=Err[n][j];
641 ge[ge.size()-1].SetPoint(j,x[j],y[j]);
642 ge[ge.size()-1].SetPointError(j,xe[j],ye[j]);
643 //tmp.SetPoint(j,x[j],y[j]);
644 }
645 ge[ge.size()-1].SetLineColor(t);
646 ge[ge.size()-1].SetTitle((TString)argv[i+1]+" Pitch "+(TString)argv[i+3]);
647 t++;
648 //TGraphErrors *tmp = new TGraphErrors(36,x,y,xe,ye);
649
650
651 //TGraphErrors df;
652 //df = *tmp;
653 //cout<<"check"<<endl;
654 //ge[ge.size()-1] = tmp;
655 //cout<<i<<endl;
656 //tmp->Delete();
657 i+=3;
658 }
659 if(!strcmp(argv[i+2],"-xline")){
660 Int_t p = 0;
661 Int_t n=0;
662 if(!strcmp(argv[i+3],"All")) p=36;else n = atoi(argv[i+3]);
663 Float_t x[20];
664 Float_t y[20];
665 Float_t xe[20];
666 Float_t ye[20];
667 for(Int_t j=0;j<20;j++){y[j]=0;ye[j]=0;}
668 ge.resize(ge.size()+1);
669 for(Int_t j=0;j<20;j++){
670 x[j]=j*2+1;
671 xe[j]=1;
672 for(Int_t yi=0;yi<p;yi++){
673 if(p!=0)n=yi;
674 y[j]+=Val[j][n];
675 ye[j]+=Err[j][n];
676 }
677 ge[ge.size()-1].SetPoint(j,x[j],y[j]);
678 ge[ge.size()-1].SetPointError(j,xe[j],ye[j]);
679 }
680 ge[ge.size()-1].SetLineColor(t);
681 ge[ge.size()-1].SetTitle((TString)argv[i+1]+" Azimuth "+(TString)argv[i+3]);
682 t++;
683 //TGraphErrors* tmp = new TGraphErrors(20,x,y,xe,ye);
684 //ge.resize(ge.size()+1);
685 //ge[ge.size()-1] = (*tmp);
686 //tmp->Delete();
687 i+=3;
688 }
689 }
690 }
691 TMultiGraph* mg = new TMultiGraph();
692 cout<<"check"<<endl;
693 for(Int_t i=0;i<ge.size();i++){
694 //ge[i]->SetLineColor(i+1);
695 //cout<<i<<endl;
696 mg->Add(&ge[i]);
697 }
698 TCanvas* c1 = new TCanvas("c1","eryt",1200,800);
699 c1->cd();
700 mg->Draw("AP");
701 cout<<"check"<<endl;
702 cout<<"out = "<<out<<endl;
703 c1->SaveAs(out+".png");
704 delete c1;
705 mg->Delete();
706 exit(1);
707 }
708
709 if(!strcmp(argv[1],"--Divide")){
710 if(argc<7){
711 cout<<"--Divide needs argument\n See --help\n";
712 exit(1);
713 }/*
714 Bool_t H2 = false;
715 TString out = "";
716 if(!strcmp(argv[2],"2D")) H2=true;
717 out = (TString)argv[7];
718 gStyle->SetPalette(1);
719 TFile* f1 = new TFile((TString)argv[3]);
720 TFile* f2 = new TFile((TString)argv[5]);
721 TH1F* h11D; TH1F* h21D;
722 TH2F* h12D; TH2F* h22D;
723 TH1F h1n1D; TH1F h2n1D;
724 TH2F h1n2D; TH2F h2n2D;
725 TH1F h1div; TH2F h2div;
726 cout<<"out is "<<out<<endl;
727 if(H2){
728 h12D = (TH2F*)f1->Get(argv[4]);
729 h22D = (TH2F*)f2->Get(argv[6]);
730 h1n2D.SetBins(h12D->GetNbinsX(),h12D->GetXaxis()->GetXmin(),h12D->GetXaxis()->GetXmax(),h12D->GetNbinsY(),h12D->GetYaxis()->GetXmin(),h12D->GetYaxis()->GetXmax());
731 h2n2D.SetBins(h12D->GetNbinsX(),h12D->GetXaxis()->GetXmin(),h12D->GetXaxis()->GetXmax(),h12D->GetNbinsY(),h12D->GetYaxis()->GetXmin(),h12D->GetYaxis()->GetXmax());
732 h2div.SetBins(h12D->GetNbinsX(),h12D->GetXaxis()->GetXmin(),h12D->GetXaxis()->GetXmax(),h12D->GetNbinsY(),h12D->GetYaxis()->GetXmin(),h12D->GetYaxis()->GetXmax());
733 for(Int_t i = 0; i < h12D->GetNbinsX(); i++){
734 for(Int_t j = 0; j < h12D->GetNbinsY(); j++){
735 h1n2D.SetBinContent(i,j,h12D->GetBinContent(i,j)/h12D->GetEntries());
736 h2n2D.SetBinContent(i,j,h22D->GetBinContent(i,j)/h22D->GetEntries());
737 }
738 }
739 h2div.Divide(&h1n2D,&h2n2D);
740 }else{
741 h11D = (TH1F*)f1->Get((TString)argv[4]);
742 h21D = (TH1F*)f2->Get((TString)argv[6]);
743 h1n1D.SetBins(h11D->GetNbinsX(),h11D->GetXaxis()->GetXmin(),h11D->GetXaxis()->GetXmax());
744 h2n1D.SetBins(h21D->GetNbinsX(),h21D->GetXaxis()->GetXmin(),h21D->GetXaxis()->GetXmax());
745 h1div.SetBins(h21D->GetNbinsX(),h21D->GetXaxis()->GetXmin(),h21D->GetXaxis()->GetXmax());
746 for(Int_t i = 0; i<h11D->GetNbinsX();i++){
747 h1n1D.SetBinContent(i,h11D->GetBinContent(i)/h11D->GetEntries());
748 h2n1D.SetBinContent(i,h21D->GetBinContent(i)/h21D->GetEntries());
749 }
750 h1div.Divide(&h1n1D,&h2n1D);
751 }
752 h2div.SetName("Proton");
753 h1div.SetName("Proton");
754 if(H2){
755 TFile fdiv(out+".root","recreate");
756 h2div.Write();
757 fdiv.Close();
758 TCanvas* c1 = new TCanvas("c1","resultDivide",1200,800);
759 c1->cd();
760 h2div.Draw("colz");
761 c1->SaveAs(out+".png");
762 delete c1;
763 }else{
764 TFile fdiv(out+".root","recreate");
765 h1div.Write();
766 fdiv.Close();
767 TCanvas* c1 = new TCanvas("c1","resultDivide",1200,800);
768 c1->cd();
769 h1div.Draw();
770 c1->SaveAs(out+".png");
771 delete c1;
772 }*/
773 Bool_t Err = false;
774 if((argc==10) && !strcmp(argv[9],"-Err")) Err = true;
775 DivideHystTH2F((TString)argv[2],(TString)argv[3],(TString)argv[4],(TString)argv[5],atoi(argv[6]),atoi(argv[7]),argv[8],Err);
776 exit(0);
777 }
778
779 if(!strcmp(argv[1],"--ReBin")){
780 if(4 >= argc){
781 cout<<"--ReBin needs argument\n See --help\n";
782 exit(1);
783 }
784 ReBinTH2F((TString)argv[2],(TString)argv[3],argv[4]);
785 exit(0);
786 }
787
788 if(!strcmp(argv[1],"--2Dto1D")){
789 if(4 >= argc){
790 cout<<"--2Dto1D needs argument\n See --help\n";
791 exit(1);
792 }
793 Convert2Dto1Dhyst((TString)argv[2],(TString)argv[3],argv[4]);
794 exit(0);
795 }
796
797 if(!strcmp(argv[3],"--OutPuth")){
798 if (4 >= argc){
799 cout<<"--OutPath needs argument\n See --help\n";
800 }else{
801 outdir = argv[4];
802 opt1.outdir = argv[4];
803 }
804 }else{
805 cout<<"\n ERROR:\tYou need --OutPuth as second argument for run programm\n See --help for more information\n"<<endl;
806 exit(1);
807 }
808
809 if(!strcmp(argv[1],"--WorkDir")){
810 if (2 >= argc){
811 cout<<"--WorkDir needs argument\n See --help\n";
812 exit(1);
813 }
814 }else{
815 cout<<"\n ERROR:\tYou need --WorkDir as first argument for run programm\n See --help for more information\n"<<endl;
816 exit(1);
817 }
818
819 if(argc==5){
820 //opt1.Default();
821 cout<<"MESSAGE:\tSetting default options \n\n";
822 }
823
824 for(Int_t i=5; i<argc; i++){
825
826 if(!strcmp(argv[i],"-do")) opt1.debug = true;
827 //opt1.AnglHystFunc(argc,argv);
828 //exit(1);
829 /*
830 Int_t NHyst1D = 0; Int_t NHyst2D = 0;
831 if(!strcmp(argv[i],"--AnglHyst")){
832
833 if(opt1.debug) cout<<"\n MESSAGE:\t AnglHyst was inicialized \n\n";
834 if((i+1)>=argc){
835 //opt1.AnglHystDefault();
836 if(opt1.debug) cout<<"Setting default value for AnglHyst option.\n\n";
837 }else{
838
839 Int_t i0 = i+1;
840
841 Bool_t inside = false; //Check that we go inside loop
842
843 Int_t NPth = 0; Int_t NMA = 0; Int_t NPNO = 0;
844 opt1.AnglHystFunc(argc,argv);
845
846 } //if((i+1)>=argc) {...}; else
847
848 } //AnglHyst
849
850 if(!strcmp(argv[i],"--DiffHyst")){
851 //opt1.opt.DH.DiffHystOn = true;
852 //opt1.DiffHystFunc(argc,argv);
853 }*/
854 if(!strcmp(argv[i],"--PamEff")){
855 //opt1.opt.PE.PamEffOn = true;
856 opt1.PamEffFunc(argc,argv);
857 /*if(opt1.debug){
858 for(Int_t i = 0; i<opt1.Hyst2D.size();i++){
859 cout<<"\t\tName of Hystogramm - "<<opt1.Hyst2D[i].Hyst2DF.GetName()<<endl;
860 cout<<"\t\tRoot = "<<opt1.Hyst2D[i].HI.root<<endl;
861 cout<<"\t\tpng = "<<opt1.Hyst2D[i].HI.png<<endl;
862 cout<<"\t\tExpType = "<<opt1.Hyst2D[i].HI.ExpType<<endl;
863 cout<<"\t\tFile name = "<<opt1.Hyst2D[i].HI.filename<<endl;
864 }
865 }*/
866 } //PamEff
867
868 if(!strcmp(argv[i],"-DoTr")) opt1.opt.DoTr = true;
869 if(!strcmp(argv[i],"-v") || !strcmp(argv[i],"-verbose")){
870 if(i+1>=argc || !atoi(argv[i+1])){
871 cout<<"\n ERROR! \t -verbose needs arguments \n See --help \n";
872 if(opt1.debug) cout<<"Argument number\t"<<i<<"\n";
873 exit(1);
874 }
875 opt1.opt.verbose = atoi(argv[i+1]);
876 if(opt1.opt.verbose>3){
877 cout<<"\n ERROR! \t -verbose needs 0, 1, 2 or 3 only \n See --help \n";
878 if(opt1.debug) cout<<"Argument\t"<<opt1.opt.verbose<<"\n";
879 exit(1);
880 }
881 }
882 if(!strcmp(argv[i],"-s") || !strcmp(argv[i],"-silent")) opt1.opt.verbose = 0;
883 /* if(!strcmp(argv[i],"-outform") || !strcmp(argv[i],"-of")){
884 Int_t i7 = i+1;
885 if(opt1.debug) cout<<"OutForm option was selected...\n\n";
886 if(i7>=argc || (strcmp(argv[i7],"jpg") && strcmp(argv[i7],"png") && strcmp(argv[i7],"bmp") && strcmp(argv[i7],"root") &&
887 strcmp(argv[i7],"txt") && strcmp(argv[i7],"all"))){
888 cout<<"\n ERROR! \t -outform needs argument \n See --help \n";
889 if(opt1.debug) cout<<"Argument number - "<<i7<<" argc = "<<argc<<"\n";
890 exit(1);
891 }
892 while(i7<argc && (!strcmp(argv[i7],"jpg") || !strcmp(argv[i7],"png") || !strcmp(argv[i7],"bmp") || !strcmp(argv[i7],"root") ||
893 !strcmp(argv[i7],"txt") || !strcmp(argv[i7],"all"))){
894 if(!strcmp(argv[i7],"jpg")) opt1.opt.ext[0] = true;
895 if(!strcmp(argv[i7],"png")) opt1.opt.ext[1] = true;
896 if(!strcmp(argv[i7],"bmp")) opt1.opt.ext[2] = true;
897 if(!strcmp(argv[i7],"root")) opt1.opt.ext[3] = true;
898 if(!strcmp(argv[i7],"txt")) opt1.opt.ext[4] = true;
899 if(!strcmp(argv[i7],"all")){
900 opt1.opt.ext[1] = true;
901 opt1.opt.ext[3] = true;
902 opt1.opt.ext[4] = true;
903 }
904 i7++;
905 }
906 }*/
907 if(!strcmp(argv[i],"-ne") || (!strcmp(argv[i],"-nevents"))){
908 if(i+1>=argc || !atoi(argv[i+1])){
909 cout<<"\n ERROR! \t -nevents needs ULong integer \n See --help \n";
910 exit(1);
911 }
912 if(atoi(argv[i+1])<0){
913 cout<<"\n ERROR! \t -nevents needs ULong integer \n See --help \n";
914 exit(1);
915 }
916 opt1.opt.Neve = atoi(argv[i+1]);
917 }
918 if(!strcmp(argv[i],"-nv") || (!strcmp(argv[i],"-Nverbose"))){
919 if(i+1>=argc || !atoi(argv[i+1])){
920 cout<<"\n ERROR! \t -nevents needs ULong integer \n See --help \n";
921 exit(1);
922 }
923 if(atoi(argv[i+1])<0){
924 cout<<"\n ERROR! \t -nevents needs ULong integer \n See --help \n";
925 exit(1);
926 }
927 opt1.opt.Nverb = atoi(argv[i+1]);
928 }
929 if(!strcmp(argv[i],"-ns") || (!strcmp(argv[i],"-Nstart"))){
930 if(i+1>=argc || !atoi(argv[i+1])){
931 cout<<"\n ERROR! \t -Nstart needs ULong integer \n See --help \n";
932 exit(1);
933 }
934 if(atoi(argv[i+1])<0){
935 cout<<"\n ERROR! \t -nstart needs ULong integer \n See --help \n";
936 exit(1);
937 }
938 opt1.opt.Nstart = atoi(argv[i+1]);
939 }
940 if(!strcmp(argv[i],"--Show")){
941 Int_t a=0;
942 if(opt1.debug) a=1;
943 if(i>5+a){
944 cout<<"\n Error!: \t --Show must be used as single option without any other \n See --help \n";
945 if(opt1.debug) cout<<"Argument number - "<<i<<" argc = "<<argc<<" arg0 - "<<argv[0]<<" arg1 - "<<argv[1]<<"\n";
946 exit(1);
947 }
948 if(opt1.debug) cout<<"\nShow Option was selected...\n\n";
949 opt1.opt.SP.Existed = true;
950 if(!strcmp(argv[i+1],"-nevents")) opt1.opt.SP.Nev = true;
951 if(!strcmp(argv[i+1],"-StartTime")) opt1.opt.SP.ST = true;
952 if(!strcmp(argv[i+1],"-EndTime")) opt1.opt.SP.ET = true;
953 if(!strcmp(argv[i+1],"-FullInformation")){
954 Int_t j6 = i+2;
955 if(opt1.debug) cout<<"\nFull Information option was selected...\n\n";
956 if(j6>=argc){
957 cout<<"\n ERROR! \t -FullInformation needs argument \n See --help \n";
958 exit(1);
959 }
960 while(j6<argc && (!strcmp(argv[j6],"-absTime") || !strcmp(argv[j6],"-event") || !strcmp(argv[j6],"-UTS") || !strcmp(argv[j6],"-Track"))){
961 if(!strcmp(argv[j6],"-event")){
962 if(j6+1>=argc || !atoi(argv[j6+1])){
963 cout<<"\n ERROR! \t -nevents needs argument \n See --help \n";
964 exit(1);
965 }
966 opt1.opt.SP.FI.NEvent = atoi(argv[j6+1]);
967 if(opt1.debug) cout<<"Event number\t"<<opt1.opt.SP.FI.NEvent<<"\n";
968 j6++;
969 }
970 if(!strcmp(argv[j6],"-absTime")){
971 if(j6+1>=argc || !atoi(argv[j6+1])){
972 cout<<"\n ERROR! \t -absTime needs argument \n See --help \n";
973 exit(1);
974 }
975 opt1.opt.SP.FI.AbsTime = atoi(argv[j6+1]);
976 if(opt1.debug) cout<<"Absolute time of Event\t"<<opt1.opt.SP.FI.AbsTime<<"\n";
977 j6++;
978 }
979 if(!strcmp(argv[j6],"-UTS")){
980 if(j6+1>=argc){
981 cout<<"\n ERROR! \t -UTS needs argument \n See --help \n";
982 exit(1);
983 }
984 opt1.opt.SP.FI.UTS = argv[j6+1];
985 if(opt1.debug) cout<<"UTS of Event\t"<<opt1.opt.SP.FI.NEvent<<"\n";
986 j6++;
987 }
988 if(!strcmp(argv[j6],"-Track")) opt1.opt.SP.FI.WT = true;
989 j6++;
990 }
991 }
992 if(!strcmp(argv[i+1],"-absTime")){
993 if(i+2>=argc || !atoi(argv[i+2])){
994 cout<<"\n ERROR! \t -event needs integer argument \n See --help \n";
995 exit(1);
996 }
997 opt1.opt.SP.AbsTime = atoi(argv[i+2]);
998 if(opt1.debug) cout<<"AbsTime for convert is "<<opt1.opt.SP.AbsTime<<"\n";
999 }
1000 if(!strcmp(argv[i+1],"-UTS")){
1001 if(i+2>=argc){
1002 cout<<"\n ERROR! \t -UTS needs argument \n See --help \n";
1003 exit(1);
1004 }
1005 opt1.opt.SP.UTS = argv[i+2];
1006 if(opt1.debug) cout<<"UTS for convert is "<<opt1.opt.SP.UTS<<"\n";
1007 }
1008 }
1009 }
1010
1011 //Bool_t OptDef = false;
1012 //for(Int_t t=0; t<5; t++) if (opt1.opt.ext[t] == true) OptDef = true;
1013 //if(!OptDef) opt1.opt.ext[1] = true;
1014 /*
1015 if(opt1.debug){
1016 if(opt1.opt.SP.Existed){
1017 cout<<"\nShow options are:\n\n";
1018 cout<<"number of events - "<<opt1.opt.SP.Nev<<";\t Start time - "<<opt1.opt.SP.ST<<";\t End time - "<<opt1.opt.SP.ET<<";\n";
1019 }else{
1020 cout<<"\nOptions are:\n\n";
1021 cout<<"DoTrack - "<<opt1.opt.DoTr<<";\t verbose - "<<opt1.opt.verbose<<";\n";
1022 cout<<"output file:\t";
1023 for(Int_t t=0; t<5; t++) cout<<opt1.opt.ext[t]<<", ";
1024 cout<<"\n\n";
1025 }
1026 }*/
1027
1028 if(!opt1.debug) Calculate(argv[2],outdir,AnglHist,DiffHist,PamEff,DoTr,PamAngTime,PamExp,opt1);
1029
1030 }
1031
1032 //Function to Convert Rigidity to Energy
1033
1034 Float_t ConvertR2T(Float_t R, Float_t M, Float_t Z)
1035 {
1036 //
1037 // Convert rigidity (GV) in kinetic energy (GeV) per nucleon
1038 // input = rigidity (GV), mass (Gev/c^2), A,Z.
1039 //
1040
1041 Float_t EcinperN = (sqrt(pow((Z*R),2)+pow(M,2))-M);
1042 return EcinperN;
1043 }
1044
1045 //Function to convert Energy to Rigidity
1046
1047 Float_t ConvertT2R(Float_t T, Float_t M, Float_t A, Float_t Z)
1048 {
1049 //
1050 // Convert kinetic energy (GeV) per nucleon in rigidity (GV)
1051 // output = rigidity (GV),input kin energy mass (Gev/c^2), A,Z.
1052 //
1053
1054 Float_t R= (1/Z)*(sqrt(pow((A*T+M),2)-pow(M,2)));
1055 return R;
1056 }
1057
1058
1059 void Calculate(char* dirname, string outdir, Bool_t AnglHist, Bool_t DiffHist, Bool_t PamEff, Bool_t DoTr, Bool_t PamAngTime, Bool_t PamExp, OptionParam opt){
1060
1061 /**********************************************/
1062 //First initialization, general for all purposes
1063 /**********************************************/
1064
1065 if(opt.opt.verbose>=2) cout<<"\nGeneral variables initialisation...\n\n";
1066
1067 TSystemDirectory* workdir = new TSystemDirectory("workdir",dirname);
1068 //TSystemDirectory* workdir2 = new TSystemDirectory("workdir2","/data01/_3/607_3/");
1069 TList* flist = workdir->GetListOfFiles();
1070 PamLevel2* pam_events = new PamLevel2();
1071 PamelaOrientation* PO = new PamelaOrientation();
1072 TTree *T = pam_events->GetPamTree(flist,"treename");
1073 ULong_t nevents = T->GetEntries();
1074
1075 if(opt.opt.verbose>=1) cout<<"\n Nevents = "<<nevents<<"\n\n";
1076
1077
1078 /********************************************************************************/
1079 /*****NEED TO CHANGE FOR OTHER COMPUTERS****************************************/
1080 pam_events->GetTrkLevel2()->LoadField("/data01/pam7/installed/pamela_software/calib/trk-param/field_param-0/");
1081 /********************************************************************************/
1082
1083 Int_t nz = 6; Float_t zin[6];
1084 for (Int_t ip=0;ip<nz;ip++) {zin[ip] = pam_events->GetToFLevel2()->GetZTOF(pam_events->GetToFLevel2()->GetToFPlaneID(ip));cout<<zin[ip]<<endl;}
1085 Trajectory *tr = new Trajectory(nz,zin);
1086
1087 if(opt.opt.verbose>=2) cout<<"\n Other Variables initialisation...\n\n";
1088
1089 PamTrack *track;
1090
1091 Int_t ntr; Float_t Argv = 0; Double_t PamAzim = 0;
1092 Double_t PamZenit = 0; Double_t MyAzim = 0; Double_t MyZenit = 0;
1093 Double_t Px = 0; Double_t Py = 0; Double_t Pz = 0;
1094
1095 //Peremennye dlya opredeleniya pervogo vhoda v cycly v PamExp
1096
1097 ULong_t PHE1 = 0; ULong_t PLE1 = 0; ULong_t PAE1 = 0;
1098 ULong_t EHE1 = 0; ULong_t ELE1 = 0; ULong_t EAE1 = 0;
1099 ULong_t pHE1 = 0; ULong_t pLE1 = 0; ULong_t pAE1 = 0;
1100 ULong_t AHE1 = 0; ULong_t ALE1 = 0; ULong_t AAE1 = 0;
1101
1102 /*********************************************************************************/
1103 //Histogramms for Count and exposition of Angles (Pitch, Pamela's Main axis, etc )
1104 /*********************************************************************************/
1105
1106 if(opt.opt.verbose>=2) cout<<"\n--AnglHyst Hystogramm block...\n\n";
1107
1108 /***************************************************************************************/
1109 //Histogramms for differences in results between calculating using DoTrack2
1110 //and using axv[0], ayv[0]
1111 /**************************************************************************************/
1112
1113 if(opt.opt.verbose>=2) cout<<"\n--DiffHyst Hystogramm block...\n\n";
1114
1115
1116 /***************************************************************************************/
1117 //Initialization histogramms for count of protons depends from Energy. Volodia.
1118 /***************************************************************************************/
1119
1120 // TH1F* proton10log= new TH1F("Protons Flux","",80,-1.,3.);
1121 // proton10log->GetXaxis()->SetTitle("log10(Energy) , GeV");
1122 // TH1F* proton1log= new TH1F("Protons Flux","",80,-1.,3.);
1123 //TH1F* binw= new TH1F("w","",80,-1.,3.);
1124 TH1F binw;
1125 binw.SetBins(80,-1.,3.);
1126 // proton1log->GetXaxis()->SetTitle("log10(Energy) , GeV");
1127 // proton1log->SetLineColor(kRed);
1128 // TCanvas *plogCanvas = new TCanvas("proton flux","protonflux", 800, 800);
1129 // this is bins wide to calculate Flux
1130 //Float_t x;
1131 //Float_t xmin, xmax;
1132 //Float_t binwide[80];
1133 for (Int_t l=0 ; l<80; l++) {
1134 binw.Fill(-1.+0.05*l,pow(10.,0.05*(Float_t)(l+1)-1.)- pow(10.,0.05*(Float_t)(l)-1.));
1135 //binwide[l]=-1.+0.05*l,pow(10.,0.05*(Float_t)(l+1)-1.)- pow(10.,0.05*(Float_t)(l)-1.)
1136 }
1137
1138 //for (Int_t l=0 ; l<80; l++) {
1139 //binwide[l]=binw->GetBinContent(l+1);
1140 // }
1141
1142 /****************************************************************************/
1143 //Geometrical Factor. Volodia
1144 /****************************************************************************/
1145 /*
1146 TH1F* Geomfactor = new TH1F("G","G",1000,0.1,500.1);
1147 TH1F* Geomfactorlog= new TH1F("Glog","Glog",80,-1.,3.);
1148 TH1F* Geomfactorlogelectron= new TH1F("Gloge","Gloge",80,-1.,3.);
1149 for (Int_t l=0 ; l <80 ;l++) {
1150 x=pow(10.,(Float_t) 0.05*l-1.);
1151 Geomfactorlogelectron->SetBinContent(l+1,pow(1/pow(66.7051+50.05404*log10(x),3.5083)+1./pow(21.6238,3.5083),(-1./3.5083)));
1152 x=ConvertT2R(x,0.938,1., 1.);
1153 Geomfactorlog->SetBinContent(l+1,pow(1/pow(66.7051+50.05404*log10(x),3.5083)+1./pow(21.6238,3.5083),(-1./3.5083)));
1154 }//geomfactor for linear scale
1155 for (Int_t l=0 ; l <1000 ;l++) {
1156 x=(Float_t) 0.5*l+0.1;
1157 Geomfactor->SetBinContent(l+1,pow(1/pow(66.7051+50.05404*log10(x),3.5083)+1./pow(21.6238,3.5083),(-1./3.5083)));
1158 }
1159 */
1160 /****************************************************************************/
1161 //General loop
1162 /****************************************************************************/
1163
1164 if(opt.opt.Neve == 0) opt.opt.Neve = nevents;
1165
1166 cout<<opt.opt.Neve<<endl;
1167
1168 for(ULong_t i=opt.opt.Nstart; i<opt.opt.Neve; i++){
1169
1170 //cout<<i<<endl;
1171 T->GetEntry(i);
1172 Bool_t OneTrack = false;
1173
1174 if(pam_events->GetTrkLevel2()->GetNTracks()==1) OneTrack = true;
1175
1176 Int_t M0DE = pam_events->GetOrbitalInfo()->mode; //0 is zero here
1177 Float_t Bx = -pam_events->GetOrbitalInfo()->Bdown; //don't need for PamExp ExpOnly for all geography areas
1178 Float_t By = pam_events->GetOrbitalInfo()->Beast; //don't need for PamExp ExpOnly for all geography areas
1179 Float_t Bz = pam_events->GetOrbitalInfo()->Bnorth; //don't need for PamExp ExpOnly for all geography areas
1180 Float_t Babs = pam_events->GetOrbitalInfo()->Babs; //don't need for PamExp ExpOnly for all geography areas
1181 Float_t L = pam_events->GetOrbitalInfo()->L; //don't need for PamExp ExpOnly for all geography areas
1182 Float_t Alt = pam_events->GetOrbitalInfo()->alt;
1183 Float_t Lat = pam_events->GetOrbitalInfo()->lat;
1184 Float_t Lon = pam_events->GetOrbitalInfo()->lon;
1185 Float_t LieveTime = 0.16*pam_events->GetTrigLevel2()->dltime[0];
1186 Float_t DeathTime = 0.01*pam_events->GetTrigLevel2()->dltime[1];
1187 Float_t rigev = 0;
1188 Float_t detr = 0;
1189 Int_t hm0; Int_t hm1;
1190 Int_t hs0; Int_t hs1;
1191
1192 ntr = 0;
1193
1194 Double_t A1; Double_t A2; Double_t A3;
1195 Double_t SB = 1000; Double_t SA; Double_t SC; Double_t ZC;
1196
1197 if(OneTrack){
1198 track = pam_events->GetTrack(0); //don't need for PamExp option
1199 rigev = 1/track->GetTrkTrack()->GetDeflection(); //dont need for AnglHyst, DiffHyst and PamExp options;
1200 detr = track->GetTrkTrack()->GetDEDX();
1201 hm0 = pam_events->GetAcLevel2()->hitmap[0];
1202 hm1 = pam_events->GetAcLevel2()->hitmap[1];
1203 hs0 = pam_events->GetAcLevel2()->hitstatus[0];
1204 hs1 = pam_events->GetAcLevel2()->hitstatus[1];
1205
1206 if(!OneTrack) ntr = -1; else{
1207 //cout<<"OneTrack"<<endl;
1208 Float_t ichi2lim = fabs(track->GetTrkTrack()->GetDeflection())*1.85+3.0;
1209 if ((track->GetTrkTrack()->chi2<=0) || (track->GetTrkTrack()->chi2>=pow(ichi2lim,4.))) ntr=-1;
1210 /*for(Int_t ii=1;ii<=12;ii++){
1211 if ((track->GetToFTrack()->beta[ii]<0) || (track->GetToFTrack()->beta[ii]>99)) ntr=-1;
1212 }*/
1213 if ((track->GetToFTrack()->beta[12]<0) || (track->GetToFTrack()->beta[12]>99)) ntr=-1;
1214 if((track->GetTrkTrack()->GetNX()<=4)&&(track->GetTrkTrack()->GetNY()<4)) ntr=-1;
1215 if(!track->GetTrkTrack()->IsInsideCavity()) ntr=-1;
1216 if(sqrt(pow(Bx,2)+pow(By,2)+pow(Bz,2))<0.001) ntr=-1;
1217 if((M0DE!=0)&&(M0DE!=1)&&(M0DE!=6)&&(M0DE!=2)&&(M0DE!=3)&&(M0DE!=8)&&(M0DE!=4)) ntr=-1;
1218 }
1219
1220 if(ntr!=-1){
1221
1222 if(!opt.opt.DoTr){
1223
1224 Double_t Aaxv = TMath::Abs(track->GetTrkTrack()->axv[0])*TMath::DegToRad();
1225 Double_t Aayv = TMath::Abs(track->GetTrkTrack()->ayv[0])*TMath::DegToRad();
1226 PamZenit = TMath::RadToDeg()*asin(sqrt(pow(sin(Aayv), 2) + pow(sin(Aaxv), 2)));
1227
1228 Double_t axv = -track->GetTrkTrack()->axv[0] * TMath::DegToRad();
1229 Double_t ayv = -track->GetTrkTrack()->ayv[0] * TMath::DegToRad();
1230 Double_t angle = atan(sin(TMath::Abs(ayv))/sin(TMath::Abs(axv))) * TMath::RadToDeg();
1231
1232 PamAzim = 360. - angle;
1233 if(axv>=0 && ayv >=0) PamAzim = angle;
1234 if(axv<0 && ayv >0) PamAzim = 180. - angle;
1235 if(axv<0 && ayv <0) PamAzim = 180. + angle;
1236
1237 PamAzim = PamAzim * TMath::DegToRad();
1238 PamZenit = (180 - PamZenit) * TMath::DegToRad();
1239 Px = sin(axv);
1240 Py = sin(ayv);
1241 Pz = cos(PamZenit);
1242
1243 //cout<<"PamAzimuth = "<<PamAzim<<" PamZenit = "<<PamZenit<<endl;
1244
1245 }
1246
1247 /*****************************************************************************/
1248 //Calculate Zenit and Azimutal angle and vector of particle flight in Pamela
1249 //using DoTrack2 procedure
1250 /*****************************************************************************/
1251
1252 if(opt.opt.DoTr){
1253
1254 track->GetTrkTrack()->DoTrack2(tr);
1255 Double_t E11x = tr->x[0];
1256 Double_t E11y = tr->y[0];
1257 Double_t E11z = zin[0];
1258 Double_t E22x = tr->x[3];
1259 Double_t E22y = tr->y[3];
1260 Double_t E22z = zin[3];
1261 Double_t norm = sqrt(pow(E22x-E11x,2)+pow(E22y-E11y,2)+pow(E22z-E11z,2));
1262 MyAzim = TMath::RadToDeg()*atan(TMath::Abs(E22y-E11y)/TMath::Abs(E22x-E11x));
1263 MyAzim = MyAzim;//-180;
1264 MyZenit = TMath::RadToDeg()*acos((E22z-E11z)/norm);
1265 if(E22x-E11x>=0 && E22y-E11y <0) MyAzim = 360. - MyAzim;
1266 if(E22x-E11x>=0 && E22y-E11y >=0) MyAzim = MyAzim;
1267 if(E22x-E11x<0 && E22y-E11y >0) MyAzim = 180. - MyAzim;
1268 if(E22x-E11x<0 && E22y-E11y <0) MyAzim = 180. + MyAzim;
1269 Px = (E22x-E11x)/norm;
1270 Py = (E22y-E11y)/norm;
1271 Pz = (E22z-E11z)/norm;
1272
1273 }
1274
1275 TMatrixD Fij = PO->ECItoGreenwich(PO->QuatoECI(pam_events->GetOrbitalInfo()->q0,pam_events->GetOrbitalInfo()->q1,pam_events->GetOrbitalInfo()->q2,pam_events->GetOrbitalInfo()->q3),pam_events->GetOrbitalInfo()->absTime);
1276 TMatrixD Dij = PO->GreenwichtoGEO(pam_events->GetOrbitalInfo()->lat,pam_events->GetOrbitalInfo()->lon,Fij);
1277 TMatrixD Iij = PO->ColPermutation(Dij);
1278
1279 TMatrixD Eij = PO->PamelatoGEO(Iij,Px,Py,Pz); //Don't necessary for PamExp
1280
1281 A1 = Iij(0,2);
1282 A2 = Iij(1,2);
1283 A3 = Iij(2,2);
1284
1285 SB = PO->GetPitchAngle(Eij(0,0),Eij(1,0),Eij(2,0),Bx,By,Bz); // Pitch angle
1286 SA = PO->GetPitchAngle(A1,A2,A3,Bx,By,Bz); // Angle between Pamela's main axiz and B
1287 SC = PO->GetPitchAngle(1,0,0,Bx,By,Bz); // Angle between direction to zenit and B
1288
1289 }
1290 }
1291
1292 //cout<<"OneTrack"<<endl;
1293 if(sqrt(pow(Bx,2)+pow(By,2)+pow(Bz,2))<0.001) ntr=-1;else{
1294 //cout<<"US.size = "<<opt.US.size()<<endl;
1295 for(Int_t jz = 0; jz<opt.PS.size();jz++){
1296 for(Int_t jy = 0; jy<opt.US.size();jy++){
1297 for(Int_t jx = 0; jx<opt.US[jy].USP.size();jx++){
1298 //if(SB<400) cout<<"Pitch = "<<SB<<" Babs = "<<Babs<<" L = "<<L<<" Alt = "<<Alt<<endl;
1299 //cout<<"Fill Hyst1D["<<thg<<"]"<<endl;
1300 if(Babs<opt.US[jy].USP[jx].Bless && Babs>opt.US[jy].USP[jx].Bmore && L<opt.US[jy].USP[jx].Lless && L>opt.US[jy].USP[jx].Lmore && Alt<opt.US[jy].USP[jx].altless && Alt>opt.US[jy].USP[jx].altmore && SB<opt.PS[jz].PitchMax && SB>opt.PS[jz].PitchMin){
1301 for(Int_t hg = 0; hg<opt.US[jy].NAH1D.size(); hg++){
1302 Int_t thg = opt.US[jy].NAH1D[hg];
1303 for(Int_t ps = 0; ps<opt.PS[jz].NAH1D.size();ps++){
1304 if(thg==opt.PS[jz].NAH1D[ps]){
1305 opt.Hyst1D[thg].HI.LieveTime+= 0.16*pam_events->GetTrigLevel2()->dltime[0];
1306 opt.Hyst1D[thg].HI.DeathTime+= 0.01*pam_events->GetTrigLevel2()->dltime[1];
1307 //cout<<"Pitch = "<<SB<<" Babs = "<<Babs<<" L = "<<L<<" Alt = "<<Alt<<endl;
1308 //cout<<"Fill Hyst1D["<<thg<<"]"<<endl;
1309 }
1310 }
1311 }
1312 for(Int_t hg = 0; hg<opt.US[jy].NAH2D.size(); hg++){
1313 Int_t thg = opt.US[jy].NAH2D[hg];
1314 for(Int_t ps = 0; ps<opt.PS[jz].NAH2D.size();ps++){
1315 if(thg==opt.PS[jz].NAH2D[ps]){
1316 opt.Hyst2D[thg].HI.LieveTime+= 0.16*pam_events->GetTrigLevel2()->dltime[0];
1317 opt.Hyst2D[thg].HI.DeathTime+= 0.01*pam_events->GetTrigLevel2()->dltime[1];
1318 }
1319 }
1320 }
1321 for(Int_t hg = 0; hg<opt.US[jy].NAH3D.size(); hg++){
1322 Int_t thg = opt.US[jy].NAH3D[hg];
1323 for(Int_t ps = 0; ps<opt.PS[jz].NAH3D.size();ps++){
1324 if(thg==opt.PS[jz].NAH3D[ps]){
1325 opt.Hyst3D[thg].HI.LieveTime+= 0.16*pam_events->GetTrigLevel2()->dltime[0];
1326 opt.Hyst3D[thg].HI.DeathTime+= 0.01*pam_events->GetTrigLevel2()->dltime[1];
1327 }
1328 }
1329 }
1330 jx = opt.US[jy].USP.size();
1331 }
1332 }
1333 }
1334 }
1335 }
1336 //cout<<ntr<<endl;
1337 if(OneTrack){
1338
1339 if(ntr!=-1){
1340
1341 Bool_t verb = false;
1342 if(opt.opt.Nverb!=-1) if(i>=opt.opt.Nverb) verb = true;
1343 //if(opt.opt.Nverb==-1) verb = false;
1344
1345 if(verb) cout<<"\n\ni = "<<i<<"\n\n"<<endl;
1346
1347 /*****************************************************************************/
1348 // CALO Selection
1349 /*****************************************************************************/
1350
1351 Float_t caloqpre=track->GetCaloTrack()->qpre;
1352 Int_t calonpre=track->GetCaloTrack()->npre;
1353 Float_t caloqtrack=track->GetCaloTrack()->qtrack;
1354 Float_t caloqmax=pam_events->GetCaloLevel2()->qmax;
1355 Int_t dncore=track->GetCaloTrack()->ncore;
1356 Int_t lepton = 0;
1357 Bool_t ACSelection = false;
1358
1359 if((hm0 & hs0)==0 && (hm1 & hs1)==0) ACSelection = true;
1360 //cout<<"hm0 = "<<hm0<<" hm1 = "<<hm1<<" hs0 = "<<" hs1 = "<<hs1<<endl;
1361
1362 Float_t betaev = 0.25*(track->GetToFTrack()->beta[0]+track->GetToFTrack()->beta[1]+track->GetToFTrack()->beta[2]+track->GetToFTrack()->beta[3]);
1363 Float_t Ekin = 0;
1364
1365 if(detr<2. && Babs>0.24 && betaev>0.2){
1366 if(dncore > (pow(fabs(rigev),0.4)*700.-400.) && fabs(rigev)<11.2) lepton = 1;
1367 if(dncore > (pow(fabs(rigev),0.38)*700.-200.) && fabs(rigev)<48.) lepton = 1;
1368 if(dncore > 3200. && fabs(rigev)>=48.) lepton = 1;
1369 if(caloqtrack < (115.*fabs(rigev)-50.)) lepton = 0;
1370 if(dncore < (700.*pow(fabs(rigev),0.33)-400.) && fabs(rigev)<=70. && fabs(rigev)>32.) lepton = 0;
1371 if(fabs(rigev)>70. && dncore < 3200.) lepton = 0;
1372 if(dncore < (pow(fabs(rigev),0.38)*700.-200.) && fabs(rigev)>18. && fabs(rigev)<32.) lepton = 0;
1373 if(dncore < (700.*pow(fabs(rigev),0.4)-400.) && fabs(rigev)<18.) lepton = 0;
1374 if(fabs(rigev)<=40. && calonpre < pow(fabs(rigev),0.6)) lepton = 0;
1375 if(fabs(rigev)<=30. && calonpre > (70.-pow(fabs(rigev),0.4))) lepton = 0;
1376 if(fabs(rigev)>40. && calonpre < 10.) lepton = 0;
1377 if(fabs(rigev)>30. && calonpre > 32.) lepton = 0;
1378 if(caloqpre/caloqtrack > (exp(-fabs(rigev)/5.)+exp(-fabs(rigev)/0.1)+0.05)) lepton = 0;
1379 if(caloqmax/caloqtrack > (0.035+0.1/fabs(rigev))) lepton = 0;
1380 }
1381
1382 string Gname = "";
1383 //if(verb)for(Int_t o=0;o<opt.Hyst1D.size(); o++) cout<<"Name of Hyst1D["<<o<<"] is "<<opt.Hyst1D[o].HI.filename<<endl;
1384 //if(verb)for(Int_t o=0;o<opt.Hyst2D.size(); o++) cout<<"Name of Hyst2D["<<o<<"] is "<<opt.Hyst2D[o].HI.filename<<endl;
1385
1386 if(verb){
1387 //if(rigev>1.7 && rigev<= 1.8 && L>6 && Lat>60 && Lat<-60){
1388 cout<<"rigev = "<<rigev<<"\tdetr = "<<detr<<endl;
1389 cout<<"Babs = "<<Babs<<"\tL = "<<L<<endl;
1390 }
1391 /*cout<<"Write Rigidity, please:"<<endl;
1392 cin>>rigev;
1393 cout<<"Write detr, please:"<<endl;
1394 cin>>detr;
1395 cout<<"Write lepton, please:"<<endl;
1396 cin>>lepton;
1397 cout<<"Write Anticounter, please:"<<endl;
1398 cin>>ACSelection;
1399 cout<<"Write Babs, please:"<<endl;
1400 cin>>Babs;
1401 cout<<"Write L, please:"<<endl;
1402 cin>>L;
1403 cout<<"Write Altitude, please:"<<endl;
1404 cin>>Alt;*/
1405
1406 Double_t Rmin = 0;
1407 Double_t Rmax = 0;
1408 Double_t Detrmin = 0;
1409 Double_t Detrmax = 0;
1410 for(Int_t k=0;k<opt.SS.size();k++){
1411 //Int_t NSS = opt.Hyst1D[k].NSS;
1412 Int_t ntr = 0;
1413 Int_t u = 0;
1414 while(u<opt.SS[k].SP.size()){
1415 Double_t Detrmin = 0;
1416 Double_t Detrmax = 0;
1417 //if(verb)cout<<"\t\trigev = "<<rigev<<endl;
1418 //if(verb)cout<<"\t\tSelectionRmin["<<u<<"] = "<<opt.SS[k].SP[u].Rmin<<"\tSelectionRmax["<<u<<"] = "<<opt.SS[k].SP[u].Rmax<<endl;
1419 if(rigev>opt.SS[k].SP[u].Rmin && rigev<=opt.SS[k].SP[u].Rmax){
1420 //if(verb)cout<<"\t\tdetrminf["<<u<<"] = "<<opt.SS[k].SP[u].detrminf<<"\tdetrmaxf["<<u<<"] = "<<opt.SS[k].SP[u].detrmaxf<<endl;
1421 if(opt.SS[k].SP[u].detrminf!=0){
1422 switch ( opt.SS[k].SP[u].detrminf ) {
1423 case 1:{Detrmin = 1/pow(fabs(rigev)+0.46,5)+1.1;if(verb){cout<<"\t\tCase 1: Detrmin = "<<Detrmin<<endl;}break;}
1424 case 2:{Detrmin = 9.0*exp(-5.6*(fabs(rigev)-0.385))+3.7;if(verb){cout<<"\t\tCase 2: Detrmin = "<<Detrmin<<endl;}break;}
1425 case 3:{Detrmin = 15*exp(-1.6*(fabs(rigev)-0.5))+4.;if(verb){cout<<"\t\tCase 3: Detrmin = "<<Detrmin<<endl;}break;}
1426 };
1427 }else {Detrmin = opt.SS[k].SP[u].detrmore;if(verb){cout<<"\t\tDetrmore: Detrmin = "<<Detrmin<<endl;}}
1428 if(opt.SS[k].SP[u].detrmaxf!=0){
1429 switch ( opt.SS[k].SP[u].detrmaxf ) {
1430 case 1:{Detrmax = 1/pow(fabs(rigev)+0.46,5)+1.1;if(verb){cout<<"\t\tCase 1: Detrmax = "<<Detrmax<<endl;}break;}
1431 case 2:{Detrmax = 9.0*exp(-5.6*(fabs(rigev)-0.385))+3.7;if(verb){cout<<"\t\tCase 2: Detrmax = "<<Detrmax<<endl;}break;}
1432 case 3:{Detrmax = 15*exp(-1.6*(fabs(rigev)-0.5))+4.;if(verb){cout<<"\t\tCase 3: Detrmax = "<<Detrmax<<endl;}break;}
1433 };
1434 }else {Detrmax = opt.SS[k].SP[u].detrless;if(verb){cout<<"\t\tDetrless: Detrmax = "<<Detrmax<<endl;}}
1435 Int_t Lept;
1436 //if(verb)cout<<"\t\t Part Type is "<<opt.SS[k].PartType<<endl;
1437 if(opt.SS[k].PartType==1 || opt.SS[k].PartType==4) Lept =1; else Lept = 0;
1438 if(verb)cout<<"\t\tlepton = "<<lepton<<"\tLept = "<<Lept<<endl;
1439 if(!(Detrmax==0 && Detrmin==0) && (detr<=Detrmin || detr>Detrmax)) ntr = -1;
1440 //if(verb)cout<<"\t\tdetr = "<<detr<<"\tDetrmin = "<<Detrmin<<"\tDetrmax = "<<Detrmax<<endl;
1441 if(opt.SS[k].SP[u].Calo && lepton==Lept) ntr=-1;
1442 if(opt.SS[k].SP[u].AC && !ACSelection) ntr=-1;
1443 //if(verb)cout<<"\t\tntr = "<<ntr<<endl;
1444 }
1445 u++;
1446 }//while SP
1447 if(ntr!=-1) {
1448 vector<Int_t> N1D(0);
1449 vector<Int_t> N2D(0);
1450 Double_t Bmore = 0;
1451 Double_t Bless = 0;
1452 Double_t Lmore = 0;
1453 Double_t Lless = 0;
1454 Double_t altmore = 0;
1455 Double_t altless = 0;
1456 Double_t Rmore = 0;
1457 Double_t Rless = 0;
1458 Double_t Pmore = 0;
1459 Double_t Pless = 0;
1460 for(Int_t cu=0;cu<opt.SS[k].NAH1D.size();cu++){
1461 Int_t nus=opt.Hyst1D[opt.SS[k].NAH1D[cu]].HI.NUS;
1462 Int_t nps=opt.Hyst1D[opt.SS[k].NAH1D[cu]].HI.NPT;
1463 for(Int_t jx = 0; jx<opt.US[nus].USP.size(); jx++){
1464 Bmore = opt.US[nus].USP[jx].Bmore;
1465 Bless = opt.US[nus].USP[jx].Bless;
1466 Lmore = opt.US[nus].USP[jx].Lmore;
1467 Lless = opt.US[nus].USP[jx].Lless;
1468 altmore = opt.US[nus].USP[jx].altmore;
1469 altless = opt.US[nus].USP[jx].altless;
1470 Rmore = opt.US[nus].USP[jx].Rmore;
1471 Rless = opt.US[nus].USP[jx].Rless;
1472 Pmore = opt.PS[nps].PitchMin;
1473 Pless = opt.PS[nps].PitchMax;
1474 //cout<<"Pmore = "<<Pmore<<" Pless = "<<Pless<<endl;
1475 if(Babs>Bmore && Babs<=Bless && L>Lmore && L<=Lless && Alt>altmore && Alt<=altless && rigev>Rmore && rigev<=Rless && SB>Pmore && SB<=Pless){
1476 //cout<<log10(rigev)<<endl;
1477 N1D.resize(N1D.size()+1);
1478 N1D[N1D.size()-1] = opt.SS[k].NAH1D[cu];
1479 if(verb){
1480 cout<<"nus = "<<nus<<endl;
1481 cout<<"Bmore = "<<Bmore<<"\tBless = "<<Bless<<endl;
1482 cout<<"Lmore = "<<Lmore<<"\tLless = "<<Lless<<endl;
1483 cout<<"N1D["<<N1D.size()-1<<"] = "<<opt.SS[k].NAH1D[cu]<<endl;
1484 cout<<"HystName "<<opt.Hyst1D[N1D[N1D.size()-1]].HI.filename<<endl;
1485 //Int_t we;
1486 //cin>>we;
1487 }
1488 jx = opt.US[nus].USP.size();
1489 }
1490 }
1491 }
1492 for(Int_t cu=0;cu<opt.SS[k].NAH2D.size();cu++){
1493 Int_t nus=opt.Hyst2D[opt.SS[k].NAH2D[cu]].HI.NUS;
1494 Int_t nps=opt.Hyst2D[opt.SS[k].NAH2D[cu]].HI.NPT;
1495 for(Int_t jx = 0; jx<opt.US[nus].USP.size(); jx++){
1496 Bmore = opt.US[nus].USP[jx].Bmore;
1497 Bless = opt.US[nus].USP[jx].Bless;
1498 Lmore = opt.US[nus].USP[jx].Lmore;
1499 Lless = opt.US[nus].USP[jx].Lless;
1500 altmore = opt.US[nus].USP[jx].altmore;
1501 altless = opt.US[nus].USP[jx].altless;
1502 Rmore = opt.US[nus].USP[jx].Rmore;
1503 Rless = opt.US[nus].USP[jx].Rless;
1504 Pmore = opt.PS[nps].PitchMin;
1505 Pless = opt.PS[nps].PitchMax;
1506 if(Babs>Bmore && Babs<Bless && L>Lmore && L<Lless && Alt>altmore && Alt<altless && rigev>Rmore && rigev<Rless && SB>Pmore && SB<Pless){
1507 N2D.resize(N2D.size()+1);
1508 N2D[N2D.size()-1] = opt.SS[k].NAH2D[cu];
1509 if(verb){
1510 //if(rigev>1.7 && rigev<= 1.8){
1511 cout<<"nus = "<<nus<<endl;
1512 cout<<"Babs = "<<Babs<<" Bmore = "<<Bmore<<"\tBless = "<<Bless<<endl;
1513 cout<<"L = "<<L<<" Lmore = "<<Lmore<<"\tLless = "<<Lless<<endl;
1514 cout<<"R = "<<rigev<<" Rmore = "<<Rmore<<"\tRless = "<<Rless<<endl;
1515 cout<<"SB = "<<TMath::RadToDeg()*SB<<" Pmore = "<<Pmore<<"\tPless = "<<Pless<<endl;
1516 cout<<"N2D["<<N2D.size()-1<<"] = "<<opt.SS[k].NAH2D[cu]<<endl;
1517 cout<<"HystName "<<opt.Hyst2D[N2D[N2D.size()-1]].HI.filename<<endl;
1518 //Int_t we;
1519 //cin>>we;
1520 }
1521 jx = opt.US[nus].USP.size();
1522 }
1523 }
1524 }
1525 for(Int_t d=0;d<N1D.size();d++){
1526 Rmin = opt.ED[opt.Hyst1D[N1D[d]].HI.NED].Emin;
1527 Rmax = opt.ED[opt.Hyst1D[N1D[d]].HI.NED].Emax;
1528 Detrmin = opt.ED[opt.Hyst1D[N1D[d]].HI.NED].detrmin;
1529 Detrmax = opt.ED[opt.Hyst1D[N1D[d]].HI.NED].detrmax;
1530 Double_t Argv = 0;
1531 if(rigev>Rmin && rigev<=Rmax && detr>Detrmin && detr<=Detrmax){
1532 Int_t ExpType = opt.Hyst1D[N1D[d]].HI.ExpType;
1533 Double_t LTI = 0;
1534 Double_t DTI = 0;
1535 if(ExpType == 1 || ExpType == 3) LTI = 0.16*pam_events->GetTrigLevel2()->dltime[0];
1536 if(ExpType == 2 || ExpType == 3) DTI = 0.01*pam_events->GetTrigLevel2()->dltime[1];
1537 switch ( ExpType ){
1538 case 1:{Argv = LTI;break;}
1539 case 2:{Argv = DTI;break;}
1540 case 3:{Argv = LTI+DTI;break;}
1541 case 4:{
1542 Argv = opt.Hyst1D[N1D[d]].HI.LieveTime;
1543 opt.Hyst1D[N1D[d]].HI.LieveTime = 0;
1544 break;
1545 }
1546 case 5:{
1547 Argv = opt.Hyst1D[N1D[d]].HI.DeathTime;
1548 opt.Hyst1D[N1D[d]].HI.DeathTime = 0;
1549 break;
1550 }
1551 case 6:{
1552 Argv = opt.Hyst1D[N1D[d]].HI.LieveTime+opt.Hyst1D[N1D[d]].HI.DeathTime;
1553 opt.Hyst1D[N1D[d]].HI.LieveTime = 0;
1554 opt.Hyst1D[N1D[d]].HI.DeathTime = 0;
1555 break;
1556 }
1557 };
1558 Double_t Xfill = 0;
1559 //cout<<"XType = "<<opt.Hyst1D[d].XType<<endl;
1560 //cout<<"Babs = "<<Babs<<endl;
1561 switch ( opt.Hyst1D[N1D[d]].XType ){
1562 case 1:{ Xfill = TMath::RadToDeg()*PamAzim;break; }
1563 case 2:{ Xfill = TMath::RadToDeg()*PamZenit;break; }
1564 case 3:{ Xfill = SB; break; }
1565 case 4:{ Xfill = detr; break; }
1566 case 5:{ Xfill = rigev; break; }
1567 case 6:{ Xfill = Lat; break; }
1568 case 7:{ Xfill = Lon; break; }
1569 case 8:{ Xfill = L; break; }
1570 case 9:{ Xfill = Babs; break; }
1571 case 10:{Xfill = Alt; break; }
1572 case 11:{Xfill = LieveTime; break; }
1573 case 12:{Xfill = DeathTime; break; }
1574 case 13:{Xfill = SC; break; }
1575 case 14:{Xfill = SA; break; }
1576 case 17:{Xfill = log10(rigev); break;}
1577 };
1578 if(verb){
1579 cout<<"rigev = "<<rigev<<"\tdetr = "<<detr<<endl;
1580 cout<<"Babs = "<<Babs<<"\tL = "<<L<<endl;
1581 cout<<"I Fill "<<opt.Hyst1D[N1D[d]].HI.filename<<" hystogramm"<<endl;
1582 cout<<"Xfill = "<<Xfill<<" d = "<<d<<endl;
1583 }
1584 opt.Hyst1D[N1D[d]].Hyst1DF.Fill(Xfill);
1585 if(ExpType!=0) opt.Hyst1D[N1D[d]].Hyst1DFExp.Fill(Xfill,Argv);
1586 if(verb){
1587 Int_t intt;
1588 cin>>intt;
1589 }
1590 }
1591 }//for d< N1D.size
1592 for(Int_t d=0;d<N2D.size();d++){
1593 Rmin = opt.ED[opt.Hyst2D[N2D[d]].HI.NED].Emin;
1594 Rmax = opt.ED[opt.Hyst2D[N2D[d]].HI.NED].Emax;
1595 Detrmin = opt.ED[opt.Hyst2D[N2D[d]].HI.NED].detrmin;
1596 Detrmax = opt.ED[opt.Hyst2D[N2D[d]].HI.NED].detrmax;
1597 Double_t Argv = 0;
1598 Double_t LTI = 0;
1599 Double_t DTI = 0;
1600 if(rigev>Rmin && rigev<=Rmax && detr>Detrmin && detr<=Detrmax){
1601 Int_t ExpType = opt.Hyst2D[N2D[d]].HI.ExpType;
1602 if(ExpType == 1 || ExpType == 3) LTI = 0.16*pam_events->GetTrigLevel2()->dltime[0];
1603 if(ExpType == 2 || ExpType == 3) DTI = 0.01*pam_events->GetTrigLevel2()->dltime[1];
1604 switch ( ExpType ){
1605 case 1:{Argv = LTI;break;}
1606 case 2:{Argv = DTI;break;}
1607 case 3:{Argv = LTI+DTI;break;}
1608 case 4:{
1609 Argv = opt.Hyst2D[N2D[d]].HI.LieveTime;
1610 opt.Hyst2D[N2D[d]].HI.LieveTime = 0;
1611 break;
1612 }
1613 case 5:{
1614 Argv = opt.Hyst2D[N2D[d]].HI.DeathTime;
1615 opt.Hyst2D[N2D[d]].HI.DeathTime = 0;
1616 break;
1617 }
1618 case 6:{
1619 Argv = opt.Hyst2D[N2D[d]].HI.LieveTime+opt.Hyst2D[N2D[d]].HI.DeathTime;
1620 opt.Hyst2D[N2D[d]].HI.LieveTime = 0;
1621 opt.Hyst2D[N2D[d]].HI.DeathTime = 0;
1622 break;
1623 }
1624 };
1625 Double_t Xfill = 0;
1626 Double_t Yfill = 0;
1627 //cout<<"YType = "<<opt.Hyst2D[d].YType<<endl;
1628 //cout<<"XType = "<<opt.Hyst2D[d].XType<<endl;
1629 switch ( opt.Hyst2D[N2D[d]].XType ){
1630 case 1:{ Xfill = TMath::RadToDeg()*PamAzim;break; }
1631 case 2:{ Xfill = TMath::RadToDeg()*PamZenit;break; }
1632 case 3:{ Xfill = SB; break; }
1633 case 4:{ Xfill = detr; break; }
1634 case 5:{ Xfill = rigev; break; }
1635 case 6:{ Xfill = Lat; break; }
1636 case 7:{ Xfill = Lon; break; }
1637 case 8:{ Xfill = L; break; }
1638 case 9:{ Xfill = Babs; break; }
1639 case 10:{Xfill = Alt; break; }
1640 case 11:{Xfill = LieveTime; break; }
1641 case 12:{Xfill = DeathTime; break; }
1642 case 13:{Xfill = SC; break; }
1643 case 14:{Xfill = SA; break; }
1644 case 17:{Xfill = log10(rigev); break;}
1645 };
1646 switch ( opt.Hyst2D[N2D[d]].YType ){
1647 case 1:{ Yfill = TMath::RadToDeg()*PamAzim;break; }
1648 case 2:{ Yfill = TMath::RadToDeg()*PamZenit;break; }
1649 case 3:{ Yfill = SB; break; }
1650 case 4:{ Yfill = detr; break; }
1651 case 5:{ Yfill = rigev; break; }
1652 case 6:{ Yfill = Lat; break; }
1653 case 7:{ Yfill = Lon; break; }
1654 case 8:{ Yfill = L; break; }
1655 case 9:{ Yfill = Babs; break; }
1656 case 10:{Yfill = Alt; break; }
1657 case 11:{Yfill = LieveTime; break; }
1658 case 12:{Yfill = DeathTime; break; }
1659 case 13:{Yfill = SC; break; }
1660 case 14:{Yfill = SA; break; }
1661 case 17:{Yfill = log10(rigev); break;}
1662 };
1663 if(verb){
1664 cout<<endl;
1665 cout<<"rigev = "<<rigev<<"\tdetr = "<<detr<<endl;
1666 cout<<"Babs = "<<Babs<<"\tL = "<<L<<endl;
1667 cout<<"I Fill "<<opt.Hyst2D[N2D[d]].HI.filename<<" hystogramm"<<endl;
1668 cout<<"Xfill = "<<Xfill<<endl<<" Yfill = "<<Yfill<<endl;
1669 }
1670 opt.Hyst2D[N2D[d]].Hyst2DF.Fill(Xfill,Yfill);
1671 if(ExpType!=0) opt.Hyst2D[N2D[d]].Hyst2DFExp.Fill(Xfill,Yfill,Argv);
1672 if(verb){
1673 Int_t intt;
1674 cin>>intt;
1675 }
1676 }
1677 }//for d<N"D.size
1678
1679 }//if ntr!=-1
1680 } // k<SS.size()
1681 if(verb)cout<<i<<endl;
1682 } // if ntr!=-1;
1683 } // if GetNTrack==1;
1684 } //general loop
1685
1686 TCanvas* Canv;
1687 TCanvas* Canvdiv;
1688 TCanvas* CanvExp;
1689 TCanvas* CanvLog;
1690 TString Ext[3];
1691 Ext[0] = ".jpg"; Ext[1] = ".png"; Ext[2] = ".bmp";
1692
1693 if(opt.opt.verbose>=2) cout<<"\n\nSave block...\n\n";
1694
1695 gStyle->SetPalette(1);
1696
1697 for(Int_t i = 0; i<opt.Hyst1D.size(); i++){
1698 TH1F hdiv;
1699 TH1F h1n1D; TH1F h2n1D; TH1F hlog;
1700 if(opt.Hyst1D[i].HI.ExpType!=0){
1701 hlog.SetBins(80,-1.,3.);
1702 h1n1D.SetBins(opt.Hyst1D[i].Hyst1DF.GetNbinsX(),opt.Hyst1D[i].Hyst1DF.GetXaxis()->GetXmin(),opt.Hyst1D[i].Hyst1DF.GetXaxis()->GetXmax());
1703 h2n1D.SetBins(opt.Hyst1D[i].Hyst1DF.GetNbinsX(),opt.Hyst1D[i].Hyst1DF.GetXaxis()->GetXmin(),opt.Hyst1D[i].Hyst1DF.GetXaxis()->GetXmax());
1704 //h2div.SetBins(h12D->GetNbinsX(),h12D->GetXaxis()->GetXmin(),h12D->GetXaxis()->GetXmax(),h12D->GetNbinsY(),h12D->GetYaxis()->GetXmin(),h12D->GetYaxis()->GetXmax());
1705 for(Int_t ii = 0; ii < opt.Hyst1D[i].Hyst1DF.GetNbinsX(); ii++){
1706 h1n1D.SetBinContent(ii,opt.Hyst1D[i].Hyst1DF.GetBinContent(ii)/opt.Hyst1D[i].Hyst1DF.GetEntries());
1707 h2n1D.SetBinContent(ii,opt.Hyst1D[i].Hyst1DFExp.GetBinContent(ii)/opt.Hyst1D[i].Hyst1DFExp.GetEntries());
1708 }
1709 hdiv.SetName(opt.Hyst1D[i].Hyst1DF.GetName());
1710 hdiv.SetBins(opt.Hyst1D[i].Hyst1DF.GetNbinsX(),opt.Hyst1D[i].Hyst1DF.GetXaxis()->GetXmin(),opt.Hyst1D[i].Hyst1DF.GetXaxis()->GetXmax());
1711 hdiv.Divide(&h1n1D,&h2n1D);
1712 cout<<"i = "<<i<<endl;
1713 if(opt.Hyst1D[i].XType==17) hlog.Divide(&opt.Hyst1D[i].Hyst1DF,&binw);
1714 }
1715 if(opt.Hyst1D[i].HI.TypeExt > 0){
1716 Canv = new TCanvas("Canv",opt.Hyst1D[i].Hyst1DF.GetName(),1200,800);
1717 Canv->cd();
1718 opt.Hyst1D[i].Hyst1DF.Draw();
1719 Canv->SaveAs((TString)outdir+"ParDirCalc_"+opt.Hyst1D[i].HI.filename+".png");
1720 if(opt.Hyst1D[i].HI.ExpType!=0){
1721 CanvExp = new TCanvas("CanvExp",opt.Hyst1D[i].Hyst1DFExp.GetName(),1200,800);
1722 CanvExp->cd();
1723 opt.Hyst1D[i].Hyst1DFExp.Draw();
1724 CanvExp->SaveAs((TString)outdir+"ParDirCalc_"+opt.Hyst1D[i].HI.filename+"_Exp.png");
1725 Canvdiv = new TCanvas("Canvdiv",hdiv.GetName(),1200,800);
1726 Canvdiv->cd();
1727 hdiv.Draw();
1728 Canvdiv->SaveAs((TString)outdir+"ParDirCalc_"+opt.Hyst1D[i].HI.filename+"DivExp.png");
1729 }
1730 if(opt.Hyst1D[i].XType==17){
1731 CanvLog = new TCanvas("CanvLog",opt.Hyst1D[i].Hyst1DF.GetName(),1200,800);
1732 CanvLog->cd();
1733 hlog.Draw();
1734 CanvLog->SaveAs((TString)outdir+"ParDirCalc_"+opt.Hyst1D[i].HI.filename+"_DivBinWide.png");
1735 }
1736 }
1737 if(opt.Hyst1D[i].HI.TypeExt == 0 || opt.Hyst1D[i].HI.TypeExt == 2){
1738 TFile fg((TString)outdir+"ParDirCalc_"+opt.Hyst1D[i].HI.filename+".root","recreate");
1739 opt.Hyst1D[i].Hyst1DF.Write();
1740 fg.Close();
1741 TFile fe((TString)outdir+"ParDirCalc_"+opt.Hyst1D[i].HI.filename+"_DivWide.root","recreate");
1742 hlog.Write();
1743 fe.Close();
1744 if(opt.Hyst1D[i].HI.ExpType!=0){
1745 TFile fgExp((TString)outdir+"ParDirCalc_"+opt.Hyst1D[i].HI.filename+"_Exp.root","recreate");
1746 opt.Hyst1D[i].Hyst1DFExp.Write();
1747 fg.Close();
1748 TFile fgdiv((TString)outdir+"ParDirCalc_"+opt.Hyst1D[i].HI.filename+"_DivExp.root","recreate");
1749 hdiv.Write();
1750 fgdiv.Close();
1751 }
1752
1753 }
1754 }
1755 for(Int_t i = 0; i<opt.Hyst2D.size(); i++){
1756 TH2F hdiv;
1757 TH2F h1n2D; TH2F h2n2D;
1758 cout<<"i = "<<i<<endl;
1759 if(opt.Hyst2D[i].HI.ExpType!=0){
1760 //cout<<"Set hdiv"<<endl;
1761 h1n2D.SetBins(opt.Hyst2D[i].Hyst2DF.GetNbinsX(),opt.Hyst2D[i].Hyst2DF.GetXaxis()->GetXmin(),opt.Hyst2D[i].Hyst2DF.GetXaxis()->GetXmax(),opt.Hyst2D[i].Hyst2DF.GetNbinsY(),opt.Hyst2D[i].Hyst2DF.GetYaxis()->GetXmin(),opt.Hyst2D[i].Hyst2DF.GetYaxis()->GetXmax());
1762 h2n2D.SetBins(opt.Hyst2D[i].Hyst2DF.GetNbinsX(),opt.Hyst2D[i].Hyst2DF.GetXaxis()->GetXmin(),opt.Hyst2D[i].Hyst2DF.GetXaxis()->GetXmax(),opt.Hyst2D[i].Hyst2DF.GetNbinsY(),opt.Hyst2D[i].Hyst2DF.GetYaxis()->GetXmin(),opt.Hyst2D[i].Hyst2DF.GetYaxis()->GetXmax());
1763 //h2div.SetBins(h12D->GetNbinsX(),h12D->GetXaxis()->GetXmin(),h12D->GetXaxis()->GetXmax(),h12D->GetNbinsY(),h12D->GetYaxis()->GetXmin(),h12D->GetYaxis()->GetXmax());
1764 for(Int_t ii = 0; ii < opt.Hyst2D[i].Hyst2DF.GetNbinsX(); ii++){
1765 for(Int_t j = 0; j < opt.Hyst2D[i].Hyst2DF.GetNbinsY(); j++){
1766 h1n2D.SetBinContent(ii,j,opt.Hyst2D[i].Hyst2DF.GetBinContent(ii,j)/opt.Hyst2D[i].Hyst2DF.GetEntries());
1767 h2n2D.SetBinContent(ii,j,opt.Hyst2D[i].Hyst2DFExp.GetBinContent(ii,j)/opt.Hyst2D[i].Hyst2DFExp.GetEntries());
1768 }
1769 }
1770 hdiv.SetName(opt.Hyst2D[i].Hyst2DF.GetName());
1771 hdiv.SetBins(opt.Hyst2D[i].Hyst2DF.GetNbinsX(),opt.Hyst2D[i].Hyst2DF.GetXaxis()->GetXmin(),opt.Hyst2D[i].Hyst2DF.GetXaxis()->GetXmax(),opt.Hyst2D[i].Hyst2DF.GetNbinsY(),opt.Hyst2D[i].Hyst2DF.GetYaxis()->GetXmin(),opt.Hyst2D[i].Hyst2DF.GetYaxis()->GetXmax());
1772 //cout<<"I try to divide it!!!"<<endl;
1773 hdiv.Divide(&h1n2D,&h2n2D);
1774 //cout<<"NbinsX1 = "<<h1n2D.GetNbinsX()<<" NBinsY1 = "<<h1n2D.GetNbinsY()<<endl;
1775 //cout<<"NbinsX2 = "<<h2n2D.GetNbinsX()<<" NBinsY2 = "<<h2n2D.GetNbinsY()<<endl;
1776 //cout<<"I has divide it!!! :))))\n0_o"<<endl;
1777 }
1778 //cout<<"opt.Hyst2D["<<i<<"].HI.TypeExt = "<<opt.Hyst2D[i].HI.TypeExt<<endl;
1779 if(opt.Hyst2D[i].HI.TypeExt > 0){
1780 //cout<<"opt.Hyst2D[i].HI.TypeExt = "<<opt.Hyst2D[i].HI.TypeExt<<endl;
1781 Canv = new TCanvas("Canv",opt.Hyst2D[i].Hyst2DF.GetName(),1200,800);
1782 Canv->cd();
1783 //cout<<"Canvas..."<<endl;
1784 opt.Hyst2D[i].Hyst2DF.Draw("colz");
1785 //cout<<"Draw hyst..."<<endl;
1786 Canv->SaveAs((TString)outdir+"ParDirCalc_"+opt.Hyst2D[i].HI.filename+".png");
1787 cout<<"Save canvas..."<<endl;
1788 if(opt.Hyst2D[i].HI.ExpType!=0){
1789 CanvExp = new TCanvas("CanvExp",opt.Hyst2D[i].Hyst2DFExp.GetName(),1200,800);
1790 CanvExp->cd();
1791 opt.Hyst2D[i].Hyst2DFExp.Draw("colz");
1792 CanvExp->SaveAs((TString)outdir+"ParDirCalc_"+opt.Hyst2D[i].HI.filename+"_Exp.png");
1793 Canvdiv = new TCanvas("Canvdiv",hdiv.GetName(),1200,800);
1794 Canvdiv->cd();
1795 hdiv.Draw("colz");
1796 Canvdiv->SaveAs((TString)outdir+"ParDirCalc_"+opt.Hyst2D[i].HI.filename+"DivExp.png");
1797 }
1798 }
1799 if(opt.Hyst2D[i].HI.TypeExt == 0 || opt.Hyst2D[i].HI.TypeExt == 2){
1800 TFile fg((TString)outdir+"ParDirCalc_"+opt.Hyst2D[i].HI.filename+".root","recreate");
1801 opt.Hyst2D[i].Hyst2DF.Write();
1802 fg.Close();
1803 if(opt.Hyst2D[i].HI.ExpType!=0){
1804 TFile fgExp((TString)outdir+"ParDirCalc_"+opt.Hyst2D[i].HI.filename+"_Exp.root","recreate");
1805 opt.Hyst2D[i].Hyst2DFExp.Write();
1806 fg.Close();
1807 cout<<"I'm here!"<<endl;
1808 TFile fgdiv((TString)outdir+"ParDirCalc_"+opt.Hyst2D[i].HI.filename+"_DivExp.root","recreate");
1809 hdiv.Write();
1810 fgdiv.Close();
1811 cout<<"I'm here!"<<endl;
1812 }
1813 }
1814 //delete Canv;
1815 //delete Canvdiv;
1816 //delete CanvExp;
1817 //delete CanvLog;
1818 }
1819
1820 /**************************************************************************************/
1821 //Draw hystogramms for protons. Volodia
1822 /**************************************************************************************/
1823
1824 /*
1825 plogCanvas->cd();
1826 //plogCanvas->SetLogx();
1827 plogCanvas->SetLogy();
1828 plogCanvas->SetGrid();
1829 //BinLogX(proton1);
1830 Float_t Energybin[80],Fluxbin[80],dE[80],dFlux[80];
1831
1832 for (Int_t i=0;i<80;i++){
1833 dFlux[i]=proton1log->GetBinContent(i+1);
1834 dFlux[i]=1./sqrt(dFlux[i]);
1835 // bintime3eq[i]=time3eq->GetBinContent(i+1);
1836 }
1837
1838 proton1log->Divide(proton1log,binw);
1839 proton1log->Divide(proton1log,Geomfactorlog);
1840 proton1log->Scale(0.001); //MeV ->GeV
1841 proton1log->Scale(10000.); //cm2 -> m2
1842 //proton1log->Scale(1./exposure[0]);
1843
1844 for (Int_t i=0;i<80;i++){
1845 Fluxbin[i]=proton1log->GetBinContent(i+1);
1846 dFlux[i]=Fluxbin[i]*dFlux[i];
1847 Energybin[i]=pow(10.,(Float_t)i*0.05+0.025-1);
1848 Energybin[i+1]=pow(10.,(Float_t)(i+1)*0.05+0.025-1.);
1849 dE[i]=(Energybin[i+1]-Energybin[i])/2.;
1850 // bintime3eq[i]=time3eq->GetBinContent(i+1);
1851 //cout<<i<<" "<<bintime3[i]<<" "<<bintime3eq[i]<<endl;
1852 //flux_out<<Energybin[i]<<" "<<Fluxbin[i]<<" "<<dE[i]<<" "<<dFlux[i]<<endl;
1853 }
1854
1855 proton1log->Draw("");
1856
1857 */
1858 }
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